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<title>80 FR 74020 - Energy Conservation Program: Test Procedures for Portable Air Conditioners</title>
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<h1>80 FR 74020 - Energy Conservation Program: Test Procedures for Portable Air Conditioners</h1>
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<h2><td>DEPARTMENT OF ENERGY</td><h2><h3>Federal Register Volume 80, Issue 228                (November 27, 2015)</h3>
<table class=table>
<tr><td>Page Range</td><td><td>74020-74039</td></td></tr>
<tr><td>FR Document</td><td><td>2015-30057</td></td></tr>
</table>
<p><td>The U.S. Department of Energy (DOE) proposes to modify the test procedure proposals for portable air conditioners (ACs), initially presented in a notice of proposed rulemaking (NOPR) published on February 25, 2015. Upon further analysis and review of the public comments received in response to the February 2015 NOPR, DOE proposes in this supplemental notice of proposed rulemaking (SNOPR) the following additions and clarifications to its proposed portable AC test procedure: (1) Minor revisions to the indoor and outdoor cooling mode test conditions; (2) an additional test condition for cooling mode testing; (3) updated infiltration air and capacity calculations to account for the second cooling mode test condition; (4) removal of the measurement of case heat transfer; (5) a clarification of test unit placement within the test chamber; (6) removal of the heating mode test procedure; (7) a revision to the CEER calculation to reflect the two cooling mode test conditions and removal of heating mode testing; and (8) additional technical corrections and clarifications. These proposals are to be combined with the initial NOPR proposals and would be codified in a newly created appendix CC to title 10 of the Code of Federal Regulations (CFR), part 430, subpart B. The test procedures would be used to determine capacities and energy efficiency metrics that would be the basis for any future energy conservation standards for portable ACs.</td></p>
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<title>Federal Register, Volume 80 Issue 228 (Friday, November 27, 2015)</title>
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<body><pre>[Federal Register Volume 80, Number 228 (Friday, November 27, 2015)]
[Proposed Rules]
[Pages 74020-74039]
From the Federal Register Online  [<a href="http://www.thefederalregister.org">www.thefederalregister.org</a>]
[FR Doc No: 2015-30057]


=======================================================================
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DEPARTMENT OF ENERGY

10 CFR Parts 429 and 430

[Docket No. EERE-2014- BT-TP-0014]
RIN 1904-AD22


Energy Conservation Program: Test Procedures for Portable Air 
Conditioners

AGENCY: Office of Energy Efficiency and Renewable Energy, Department of 
Energy.

ACTION: Supplemental notice of proposed rulemaking.

-----------------------------------------------------------------------

SUMMARY: The U.S. Department of Energy (DOE) proposes to modify the 
test procedure proposals for portable air conditioners (ACs), initially 
presented in a notice of proposed rulemaking (NOPR) published on 
February 25, 2015. Upon further analysis and review of the public 
comments received in response to the February 2015 NOPR, DOE proposes 
in this supplemental notice of proposed rulemaking (SNOPR) the 
following additions and clarifications to its proposed portable AC test 
procedure: (1) Minor revisions to the indoor and outdoor cooling mode 
test conditions; (2) an additional test condition for cooling mode 
testing; (3) updated infiltration air and capacity calculations to 
account for the second cooling mode test condition; (4) removal of the 
measurement of case heat transfer; (5) a clarification of test unit 
placement within the test chamber; (6) removal of the heating mode test 
procedure; (7) a revision to the CEER calculation to reflect the two 
cooling mode test conditions and removal of heating mode testing; and 
(8) additional technical corrections and clarifications. These 
proposals are to be combined with the initial NOPR proposals and would 
be codified in a newly created appendix CC to title 10 of the Code of 
Federal Regulations (CFR), part 430, subpart B. The test procedures 
would be used to determine capacities and energy efficiency metrics 
that would be the basis for any future energy conservation standards 
for portable ACs.

DATES: DOE will accept comments, data, and information regarding this 
SNOPR, submitted no later than December 28, 2015. See section V, 
``Public Participation,'' for details.

ADDRESSES: Any comments submitted must identify the SNOPR for Test 
Procedures for Portable Air Conditioners, and provide docket number 
EERE-2014-BT-TP-0014 and/or regulatory information number (RIN) number 
1904-AD22. Comments may be submitted using any of the following 
methods:
    1. Federal eRulemaking Portal: <a href="https://www.regulations.gov">www.regulations.gov</a>. Follow the 
instructions for submitting comments.
    2. Email: <a href="/cdn-cgi/l/email-protection#2b7b44595f4a49474e6a68191b1a1f7f7b1b1b1a1f6b4e4e054f444e054c445d"><span class="__cf_email__" data-cfemail="0d5d627f796c6f61684c4e3f3d3c39595d3d3d3c394d686823696268236a627b">[email&#160;protected]</span></a>. Include the docket 
number and/or RIN in the subject line of the message.
    3. Mail: Ms. Brenda Edwards, U.S. Department of Energy, Building 
Technologies Program, Mailstop EE-5B, 1000 Independence Avenue SW., 
Washington, DC 20585-0121. If possible, please submit all items on a 
CD. It is not necessary to include printed copies.
    4. Hand Delivery/Courier: Ms. Brenda Edwards, U.S. Department of 
Energy, Building Technologies Program, 950 L'Enfant Plaza SW., Room 
6094, Washington, DC 20024. Telephone: (202) 586-2945. If possible, 
please submit all items on a CD. It is not necessary to include printed 
copies.
    For detailed instructions on submitting comments and additional 
information on the rulemaking process, see section V of this document 
(Public Participation).
    Docket: The docket, which includes Federal Register notices, public 
meeting attendee lists and transcripts, comments, and other supporting 
documents/materials, is available for review at <a href="https://www.regulations.gov">www.regulations.gov</a>. 
All documents in the docket are listed in the <a href="https://regulations.gov">regulations.gov</a> index. 
However, some documents listed in the index, such as those containing 
information that is exempt from public disclosure, may not be publicly 
available.
    A link to the docket Web page can be found at: <a href="https://www.regulations.gov/#!docketDetail">http://www.regulations.gov/#!docketDetail</a>;D=EERE-2014-BT-TP-0014 . This Web 
page will contain a link to the docket for this notice on the 
<a href="https://www.regulations.gov">www.regulations.gov</a> site. The <a href="https://www.regulations.gov">www.regulations.gov</a> Web page will contain 
simple instructions on how to access all documents, including public 
comments, in the docket. See Section V, ``Public Participation,'' for 
information on how to submit comments through <a href="https://www.regulations.gov">www.regulations.gov</a>.
    For further information on how to submit a comment, or review other 
public comments and the docket, contact Ms. Brenda Edwards at (202) 
586-2945 or by email: <a href="/cdn-cgi/l/email-protection#82c0f0e7ece6e3acc7e6f5e3f0e6f1c2e7e7ace6ede7ace5edf4"><span class="__cf_email__" data-cfemail="d795a5b2b9b3b6f992b3a0b6a5b3a497b2b2f9b3b8b2f9b0b8a1">[email&#160;protected]</span></a>.

FOR FURTHER INFORMATION CONTACT: 
Mr. Bryan Berringer, U.S. Department of Energy, Office of Energy 
Efficiency and Renewable Energy, Building Technology Office, EE-5B, 
1000 Independence Ave. SW., Washington, DC 20585-0121. Telephone: 202-
586-0371. Email: <a href="/cdn-cgi/l/email-protection#2361515a424d0d614651514a4d4446516346460d474c460d444c55"><span class="__cf_email__" data-cfemail="ecae9e958d82c2ae899e9e85828b899eac8989c2888389c28b839a">[email&#160;protected]</span></a>.
Ms. Sarah Butler, U.S. Department of Energy, Office of the General 
Counsel, Mailstop GC-33, 1000 Independence Ave. SW., Washington, DC 
20585-0121. Telephone: 202-586-1777; Email: <a href="/cdn-cgi/l/email-protection#64370516050c4a261110080116240c154a000b014a030b12"><span class="__cf_email__" data-cfemail="d083b1a2b1b8fe92a5a4bcb5a290b8a1feb4bfb5feb7bfa6">[email&#160;protected]</span></a>.

SUPPLEMENTARY INFORMATION: DOE intends to incorporate by reference the 
following industry standard into 10 CFR parts 429 and 430: AHAM PAC-1-
2015, Portable Air Conditioners. DOE also intends to incorporate by 
reference the following industry standard into 10 CFR part 430: ANSI/
ASHRAE Standard 37-2009, Methods of Testing for Rating Electrically 
Driven Unitary Air-Conditioning and Heat Pump Equipment.
    Copies of AHAM PAC-1-2015 can be obtained from the Association of 
Home Appliance Manufacturers 1111 19th Street NW., Suite 402, 
Washington, DC 20036, 202-872-5955, or by going to <a href="http://www.aham.org/ht/d/ProductDetails/sku/PAC12009/from/714/pid/">http://www.aham.org/ht/d/ProductDetails/sku/PAC12009/from/714/pid/</a>.
    Copies of ANSI/ASHRAE Standard 37-2009 can be obtained from the 
American National Standards Institute 25 W. 43rd Street, 4th Floor, New 
York, NY 10036, 212-642-4980, or by going to

[[Page 74021]]

<a href="http://webstore.ansi.org/RecordDetail.aspx?sku=ANSI%2FASHRAE+Standard+37-2009">http://webstore.ansi.org/RecordDetail.aspx?sku=ANSI%2FASHRAE+Standard+37-2009</a>.
    See section IV.B. for a description of these standards.

Table of Contents

I. Authority and Background
    A. General Test Procedure Rulemaking Process
    B. Test Procedure for Portable Air Conditioners
1. The May 2014 NODA
2. The February 2015 NOPR
II. Synopsis of the Supplemental Notice of Proposed Rulemaking
III. Discussion
    A. Active Mode
    B. Cooling Mode
    1. Test Chamber and Infiltration Air Conditions
    a. Test Chamber Conditions
    b. Infiltration Air Conditions
    c. Infiltration Air Calculations
    2. Test Duration
    3. Seasonally Adjusted Cooling Capacity
    4. Duct Heat Transfer and Leakage
    a. Duct Heat Transfer Impacts
    b. Convection Coefficient
    c. Duct Surface Area Measurements
    5. Case Heat Transfer
    6. Test Unit Placement
    C. Heating Mode
    D. Combined Energy Efficiency Ratio
    1. Annual Operating Mode Hours
    2. CEER Calculation
    E. Compliance with other Energy Policy and Conservation Act 
Requirements
    1. Test Burden
IV. Procedural Issues and Regulatory Review
    A. Review Under the Regulatory Flexibility Act
    B. Description of Materials Incorporated by Reference
V. Public Participation
VI. Approval of the Office of the Secretary

I. Authority and Background

    Title III of the Energy Policy and Conservation Act (EPCA), as 
amended (42 U.S.C. 6291, et seq.; ``EPCA'' or, ``the Act'') sets forth 
various provisions designed to improve energy efficiency. Part A of 
title III of EPCA (42 U.S.C. 6291-6309) establishes the ``Energy 
Conservation Program for Consumer Products Other Than Automobiles,'' 
which covers consumer products and certain commercial products 
(hereinafter referred to as ``covered products'').\1\ EPCA authorizes 
DOE to establish technologically feasible, economically justified 
energy conservation standards for covered products or equipment that 
would be likely to result in significant national energy savings. (42 
U.S.C. 6295(o)(2)(B)(i)(I)-(VII)) In addition to specifying a list of 
covered consumer and industrial products, EPCA contains provisions that 
enable the Secretary of Energy to classify additional types of consumer 
products as covered products. (42 U.S.C. 6292(a)(20)) For a given 
product to be classified as a covered product, the Secretary must 
determine that:
---------------------------------------------------------------------------

    \1\ For editorial reasons, upon codification in the U.S. Code, 
Part B was re-designated Part A.
---------------------------------------------------------------------------

    (1) Classifying the product as a covered product is necessary for 
the purposes of EPCA; and
    (2) The average annual per-household energy use by products of each 
type is likely to exceed 100 kilowatt-hours (kWh) per year. (42 U.S.C. 
6292(b)(1))
    To prescribe an energy conservation standard pursuant to 42 U.S.C. 
6295(o) and (p) for covered products added pursuant to 42 U.S.C. 
6292(b)(1), the Secretary must also determine that:
    (1) The average household energy use of the products has exceeded 
150 kWh per household for a 12-month period;
    (2) The aggregate 12-month energy use of the products has exceeded 
4.2 terawatt-hours (TWh);
    (3) Substantial improvement in energy efficiency is technologically 
feasible; and
    (4) Application of a labeling rule under 42 U.S.C. 6294 is unlikely 
to be sufficient to induce manufacturers to produce, and consumers and 
other persons to purchase, covered products of such type (or class) 
that achieve the maximum energy efficiency that is technologically 
feasible and economically justified. (42 U.S.C. 6295(l)(1))
    Under EPCA, the energy conservation program consists essentially of 
four parts: (1) testing, (2) labeling, (3) Federal energy conservation 
standards, and (4) certification and enforcement procedures. The 
testing requirements consist of test procedures that manufacturers of 
covered products must use as the basis for: (1) certifying to DOE that 
their products comply with the applicable energy conservation standards 
adopted under EPCA, and (2) making representations about the efficiency 
of those products. Similarly, DOE must use these test procedures to 
determine whether the products comply with any relevant standards 
promulgated under EPCA.

A. General Test Procedure Rulemaking Process

    Under 42 U.S.C. 6293, EPCA sets forth the criteria and procedures 
DOE must follow when prescribing or amending test procedures for 
covered products. EPCA provides in relevant part that any test 
procedures prescribed or amended under this section shall be reasonably 
designed to produce test results that measure energy efficiency, energy 
use or estimated annual operating cost of a covered product during a 
representative average use cycle or period of use and shall not be 
unduly burdensome to conduct. (42 U.S.C. 6293(b)(3)) In addition, if 
DOE determines that a test procedure should be prescribed or amended, 
it must publish proposed test procedures and offer the public an 
opportunity to present oral and written comments on them. (42 U.S.C. 
6293(b)(2))

B. Test Procedure for Portable Air Conditioners

    There are currently no DOE test procedures or energy conservation 
standards for portable ACs. On July 5, 2013, DOE issued a notice of 
proposed determination (NOPD) of coverage (hereinafter referred to as 
the ``July 2013 NOPD''), in which DOE announced that it tentatively 
determined that portable ACs meet the criteria under 42 U.S.C. 
6292(b)(1) to be classified as a covered product. 78 FR 40403. DOE 
estimated that approximately 974,000 portable AC units were shipped in 
North America in 2012, and projected that approximately 1.74 million 
units would be shipped in 2018, representing nearly 80-percent growth 
in 6 years.\2\ Id. at 40404. In addition, DOE estimated the average 
per-household portable AC electricity consumption for those homes with 
portable ACs to be approximately 650 kWh per year. Id.
---------------------------------------------------------------------------

    \2\ Transparency Media Research, ``Air Conditioning Systems 
Market--Global Scenario, Trends, Industry Analysis, Size, Share and 
Forecast, 2012-2018,'' January 2013.
---------------------------------------------------------------------------

    In response to the July 2013 NOPD, DOE received comments from 
interested parties on several topics regarding appropriate test 
procedures for portable ACs that DOE should consider if it issues a 
final determination classifying portable ACs as a covered product.
1. The May 2014 NODA
    On May 9, 2014, DOE published in the Federal Register a notice of 
data availability (NODA) (hereinafter referred to as the ``May 2014 
NODA''), in which it agreed that a DOE test procedure for portable ACs 
would provide consistency and clarity for representations of energy use 
of these products. DOE evaluated available industry test procedures to 
determine whether such methodologies would be suitable for 
incorporation in a future DOE test procedure, should DOE determine to 
classify portable ACs as a covered product. DOE conducted testing on a 
range of portable ACs to determine typical cooling capacities and 
cooling energy efficiencies based on the existing industry test methods 
and other modified approaches for portable ACs. 79 FR 26639, 26640 (May 
9, 2014).

[[Page 74022]]

2. The February 2015 NOPR
    On February 25, 2015, DOE published in the Federal Register a 
notice of proposed rulemaking (NOPR) (hereinafter referred to as the 
``February 2015 NOPR''), in which it proposed test procedures for 
portable ACs that would provide a means of determining efficiency in 
various operating modes, including cooling mode, heating mode, off-
cycle mode, standby mode, and off mode. 80 FR 10211. For cooling mode 
and heating mode, DOE proposed test procedures based on the then-
current industry-accepted test procedure, Association of Home Appliance 
Manufacturers (AHAM) PAC-1-2014, ``Portable Air Conditioners,'' with 
additional provisions to account for heat transferred to the indoor 
conditioned space from the case, ducts, and any infiltration air from 
unconditioned spaces. DOE also proposed various clarifications for 
cooling mode and heating mode testing, including: (1) Test duct 
configuration; (2) instructions for condensate collection; (3) control 
settings for operating mode, fan speed, temperature set point, and 
louver oscillation; and (4) unit placement within the test chamber. For 
off-cycle mode, DOE proposed a test procedure that would measure 
portable AC energy use when the ambient dry-bulb temperature is at or 
below the setpoint. DOE also identified relevant low-power modes, 
proposed definitions for inactive mode and off mode, and proposed test 
procedures to determine representative energy consumption for these 
modes. Id.
    In the February 2015 NOPR, DOE proposed to use a combined energy 
efficiency ratio (CEER) metric for representing the overall energy 
efficiency of single-duct and dual-duct portable ACs. The CEER metric 
would represent energy use in all available operating modes. DOE also 
proposed a cooling mode-specific CEER for units that do not provide a 
heating function to provide a basis for comparing performance with 
other cooling products such as room ACs. In addition, DOE proposed 
separate energy efficiency ratio (EER) metrics for determining energy 
efficiency in cooling mode and heating mode only. 80 FR 10211, 10234-
10235 (Feb. 25, 2015).
    DOE also recently initiated a separate rulemaking to consider 
establishing energy conservation standards for portable ACs. Any new 
standards would be based on the same efficiency metrics derived from 
the test procedure that DOE would adopt in a final rule in this 
rulemaking.

II. Synopsis of the Supplemental Notice of Proposed Rulemaking

    Upon further analysis and review of the public comments received in 
response to the February 2015 NOPR, DOE proposes in this SNOPR the 
following additions and clarifications to its proposed portable AC test 
procedure: (1) Minor revisions to the indoor and outdoor cooling mode 
test conditions; (2) an additional test condition for cooling mode 
testing; (3) updated infiltration air and capacity calculations to 
account for the second cooling mode test condition; (4) removal of the 
measurement of case heat transfer; (5) a clarification of test unit 
placement within the test chamber; (6) removal of the heating mode test 
procedure; (7) a revision to the CEER calculation to reflect the two 
cooling mode test conditions and removal of heating mode testing; and 
(8) additional technical corrections and clarifications.
    Other than the specific amendments newly proposed in this SNOPR, 
DOE continues to propose the test procedure originally included in the 
February 2015 NOPR. For the reader's convenience, DOE has reproduced in 
this SNOPR the entire body of proposed regulatory text from the 
February 2015 NOPR, amended as appropriate according to these 
proposals. DOE's supporting analysis and discussion for the portions of 
the proposed regulatory text not affected by this SNOPR may be found in 
the February 2015 NOPR. 80 FR 10211 (Feb. 25, 2015).

III. Discussion

A. Active Mode

    In the February 2015 NOPR, DOE proposed to define active mode, for 
purposes of the portable AC test procedure, as a mode in which the 
portable AC is connected to a mains power source, has been activated, 
and is performing the main functions of cooling or heating the 
conditioned space, circulating air through activation of its fan or 
blower without activation of the refrigeration system, or defrosting 
the refrigerant coil. 80 FR 10211, 10216 (Feb. 25, 2015). DOE has 
determined that the existing statutory definition of ``active mode'' is 
sufficient for purposes of this test procedure and therefore is no 
longer proposing a separate definition of ``active mode'' for portable 
ACs.

B. Cooling Mode

    In the February 2015 NOPR, DOE proposed that cooling mode is a mode 
in which a portable AC has activated the main cooling function 
according to the thermostat or temperature sensor signal, including 
activating the refrigeration system or the fan or blower without 
activation of the refrigeration system. 80 FR 10211, 10217 (Feb. 25, 
2015). DOE determined that the existing industry standards used to 
measure portable AC cooling capacity and EER, which are based on air 
enthalpy methods, may not represent true portable AC performance. 
Additionally, DOE is aware that manufacturers may test according to 
different industry standards, causing confusion and variation in the 
reported cooling capacities and EERs for units currently on the market. 
DOE further concluded that varying infiltration air flow rates and heat 
losses would preclude a fixed translation factor that could be applied 
to the results of an air enthalpy measurement to account for the impact 
of these effects. Therefore, although DOE generally proposed a test 
procedure for portable ACs based on AHAM PAC-1-2014, the industry-
accepted standard for testing portable ACs (which is based on an air 
enthalpy approach), the proposed test procedure incorporated 
infiltration air effects and heat losses to more accurately measure 
performance representative of typical operation and provide a clear and 
consistent basis for comparison of portable AC capacity and energy use. 
80 FR 10211, 10222-10223 (Feb. 25, 2015).
    The Appliance Standards Awareness Project (ASAP), Alliance to Save 
Energy (ASE), American Council for an Energy-Efficient Economy (ACEEE), 
National Consumer Law Center (NCLC), Natural Resources Defense Council 
(NRDC), and Northwest Energy Efficiency Alliance (NEEA) (hereinafter 
the ``Joint Commenters'') and the Pacific Gas and Electric Company 
(PG&E), Southern California Gas Company (SCGC), Southern California 
Edison (SCE), and San Diego Gas and Electric Company (SDG&E) 
(hereinafter the ``California IOUs'') supported DOE's proposal to adopt 
AHAM PAC-1-2014 with modifications to account for the impacts of 
infiltration air and heat transfer from the duct(s) and case, as this 
would better reflect real-world performance of both single-duct and 
dual-duct portable ACs. (Joint Commenters, No. 19 at p. 1; California 
IOUs, No. 20 at p. 1) \3\ The Joint Commenters further noted that in

[[Page 74023]]

response to the NODA, they had encouraged DOE to adopt a test procedure 
based on the calorimeter approach. In light of the data presented in 
the February 2015 NOPR, the Joint Commenters now support the proposal 
to base a DOE portable AC test procedure on AHAM PAC-1-2014 as there is 
a good correlation with the calorimeter test results when the proposed 
adjustments that account for the impact of infiltration air and duct 
and case heat transfer are applied. (Joint Commenters, No. 19 at p. 2)
---------------------------------------------------------------------------

    \3\ A notation in the form ``Joint Commenters, No. 19 at p. 1'' 
identifies a written comment: (1) Made by the Appliance Standards 
Awareness Project, Alliance to Save Energy, American Council for an 
Energy-Efficient Economy, National Consumer Law Center, Natural 
Resources Defense Council, and Northwest Energy Efficiency Alliance 
(the ``Joint Commenters''); (2) recorded in document number 19 that 
is filed in the docket of this test procedure rulemaking (Docket No. 
EERE-2014-BT-TP-0014) and available for review at 
<a href="https://www.regulations.gov">www.regulations.gov</a>; and (3) which appears on page 1 of document 
number 19.
---------------------------------------------------------------------------

    China WTO/TBT National Notification & Enquiry Center (China) noted 
that, compared to the industry-accepted and commonly used American 
National Standards Institute (ANSI)/American Society of Heating, 
Refrigerating, and Air-Conditioning Engineers (ASHRAE) Standard 128-
2001, ``Method of Rating Unitary Spot Air Conditioners,'' AHAM PAC-1-
2014 is significantly more complex, increases the cost of testing, and 
would require laboratories to purchase new instrumentation and update 
or reconstruct their chambers. Further, China stated that DOE did not 
provide a comparison between AHAM PAC-1-2014 and ANSI/ASHRAE 128-2001 
based on test data. Without a comparison of the results, China does not 
believe that DOE can conclude there is a marked difference between the 
two, and cannot determine that testing according to AHAM PAC-1-2014 is 
necessary. China requested that DOE provide comparative data between 
the two test procedures. (China, No. 15 at pp. 3-4)
    De' Longhi Appliances s.r.l. (De' Longhi) claimed that in the 
United States, most manufacturers are using the standard ANSI/ASHRAE 
128-2001 to rate the performance of single-duct portable ACs. De' 
Longhi stated, however, that testing a single-duct portable AC 
according to AHAM PAC-1-2014 results in a cooling capacity about 25 
percent lower than the rating obtained with ANSI/ASHRAE 128-2001. 
Despite this rated cooling capacity reduction, De' Longhi supports the 
use of AHAM PAC-1-2014 because it ensures more reliable and repeatable 
testing data. (De' Longhi, No. 16 at pp. 1-2)
    AHAM and De' Longhi support the use of AHAM PAC-1-2014 as the basis 
for a DOE test procedure for portable ACs, albeit without the addition 
of certain test procedure provisions that DOE has proposed. (Public 
Meeting Transcript, AHAM, No. 13 at p. 31; Public Meeting Transcript, 
De' Longhi, No. 13 at pp. 13, 33; AHAM, No. 18 at p. 2; De' Longhi, No. 
16 at p. 2) \4\
---------------------------------------------------------------------------

    \4\ A notation in the form ``AHAM, Public Meeting Transcript, 
No. 13 at p. 31'' identifies an oral comment that DOE received on 
March 18, 2015 during the NOPR public meeting, was recorded in the 
public meeting transcript in the docket for this test procedure 
rulemaking (Docket No. EERE-2014-BT-TP-0014). This particular 
notation refers to a comment (1) made by the Association of Home 
Appliance Manufacturers during the public meeting; (2) recorded in 
document number 13, which is the public meeting transcript that is 
filed in the docket of this test procedure rulemaking; and (3) which 
appears on page 31 of document number 13.
---------------------------------------------------------------------------

    DOE agrees that certain portable ACs may be currently tested 
according to ANSI/ASHRAE 128-2001, but believes this is largely due to 
California's regulations for certifying spot coolers sold in that 
State. As discussed in the February 2015 NOPR, DOE is not proposing 
testing procedures for spot coolers at this time. 80 FR 10212, 10214-15 
(Feb. 25, 2015). In addition, ANSI/ASHRAE 128-2001 is an obsolete 
version of that test standard, and DOE expects that manufacturers 
conducting testing of their portable ACs for reasons other than 
certification in California may be using a current, industry-accepted 
test standard such as AHAM PAC-1-2014 or ANSI/ASHRAE 128-2011, both of 
which were discussed and analyzed in the May 2014 NODA and February 
2015 NOPR. For these reasons, and with the general support of 
interested parties, DOE continues to propose a test procedure for 
portable ACs that is based on the current version of AHAM PAC-1. DOE 
notes that AHAM issued a new version of PAC-1 in 2015, with no changes 
in language from the 2014 version. Therefore, although DOE previously 
proposed to adopt a test procedure for portable ACs that is based on 
AHAM PAC-1-2014, DOE now proposes in this SNOPR to reference the 
identical updated version, AHAM PAC-1-2015, in the proposed DOE 
portable AC test procedure. Accordingly, DOE refers to AHAM PAC-1-2015 
for the remainder of this SNOPR when discussing its current proposals.
    Additionally, this notice discusses other modifications to the test 
procedure proposed in the February 2015 NOPR to address commenters' 
concerns, improve repeatability, minimize test burden, and ensure the 
test procedure is representative of typical consumer usage.
1. Test Chamber and Infiltration Air Conditions
    DOE proposed in the February 2015 NOPR to utilize the following 
ambient conditions presented in Table III.1 below, based on those test 
conditions specified in Table 3, ``Standard Rating Conditions,'' of 
AHAM PAC-1-2014. DOE also proposed to determine test configurations 
according to Table 2 of AHAM PAC-1-2014, with Test Configuration 3 
applicable to dual-duct portable ACs and Test Configuration 5 
applicable to single-duct portable ACs. 80 FR 10211, 10226 (Feb. 25, 
2015). For single-duct units, the condenser inlet conditions are the 
same as the evaporator inlet. For dual-duct units, the condenser inlet 
air conditions are monitored at the interface between the condenser 
inlet duct and outdoor test room.

                      Table III.1--Standard Rating Conditions--Cooling Mode--NOPR Proposal
----------------------------------------------------------------------------------------------------------------
                                                   Evaporator inlet air, [deg]F     Condenser inlet air, [deg]F
                                                             ([deg]C)                        ([deg]C)
               Test configuration                ---------------------------------------------------------------
                                                     Dry bulb        Wet bulb        Dry bulb        Wet bulb
----------------------------------------------------------------------------------------------------------------
3...............................................       80.6 (27)       66.2 (19)       95.0 (35)       75.2 (24)
5...............................................       80.6 (27)       66.2 (19)       80.6 (27)       66.2 (19)
----------------------------------------------------------------------------------------------------------------


[[Page 74024]]

a. Test Chamber Conditions
    In the February 2015 NOPR, DOE noted that the AHAM PAC-1-2014 test 
conditions are slightly different from the AHAM PAC-1-2009 test 
conditions, which AHAM revised to harmonize with the temperatures 
specified in Canadian Standards Association (CSA) C370-2013, ``Cooling 
Performance of Portable Air Conditioners'' and ANSI/ASHRAE Standard 
128-2011, ``Method of Rating Portable Air Conditioners.'' DOE's 
analysis and testing was conducted in accordance with AHAM PAC-1-2009, 
as the next version of the standard, AHAM PAC-1-2014, had not yet been 
finalized. DOE tentatively determined that the test condition 
differences between the 2009 and 2014 versions of AHAM PAC-1 would not 
substantively impact test results. Therefore, DOE proposed to use the 
updated test conditions from AHAM PAC-1-2014. DOE also noted in the 
February 2015 NOPR that these conditions are close, but not identical, 
to those required by the DOE room AC test procedure (80 degrees 
Fahrenheit ([deg]F) dry-bulb temperature and 67[emsp14][deg]F wet-bulb 
temperature on the indoor side, and 95[emsp14][deg]F dry-bulb 
temperature and 75[emsp14][deg]F wet-bulb temperature on the outdoor 
side, consistent with the AHAM PAC-1-2009 conditions). 80 FR 10211, 
10226 (Feb. 25, 2015).
    AHAM agreed that there are no major differences between the 2009 
and 2014 versions, and that the main changes were editorial in nature 
to harmonize with the Canadian test procedure. AHAM stated that it is 
important that the North American and Canadian methods are harmonized. 
(Public Meeting Transcript, AHAM, No. 13 at pp. 31-32)
    DENSO Products and Services Americas, Inc. (DENSO) commented that 
the room AC indoor test conditions in the DOE test procedure for those 
products correspond to about 50-percent relative humidity, whereas the 
AHAM PAC-1-2014 indoor test conditions are closer to 40-percent 
relative humidity. According to DENSO, this is a significant difference 
in test conditions and thus the AHAM PAC-1-2014 test conditions are not 
comparable to those for room ACs or other air conditioning products. 
DENSO also commented that the test conditions should be expressed in 
whole degrees instead of three-digit dry-bulb and wet-bulb temperatures 
in [deg]F that are equivalent to whole degrees Celsius in other 
standards. (Public Meeting Transcript, DENSO, No. 13 at pp. 47-48, 69-
70; DENSO, No. 14 at p. 2)
    In response to the comments received regarding the chamber test 
conditions, DOE examined the relative impact of the varying latent heat 
differential between the indoor and outdoor conditions in the February 
2015 NOPR proposal and in AHAM PAC-1-2009. The latent heat differential 
impacts cooling capacity primarily through the effects of infiltration 
air. Based on the average dry air mass flowrate for the single-duct and 
dual-duct units in DOE's test sample, DOE estimated that the change in 
test conditions from the 2009 to either the 2014 or 2015 version of 
AHAM PAC-1 would decrease cooling capacity by increasing the heating 
effect due to infiltration air by an average of 755 Btu/h and 330 Btu/h 
for the two configurations, respectively. With an average PAC-1-2009 
cooling capacity (without accounting for infiltration air, case, or 
duct heat effects) of 7,650 Btu/h for single-duct units and 6,800 Btu/h 
for dual-duct units, adjusting the test conditions from the 2009 to 
2015 version of AHAM PAC-1 would decrease cooling capacity by 5-10 
percent, an amount which DOE considers to be significant. Therefore, 
DOE no longer concludes that the test condition differences between the 
2009 and 2014 (and, thus, 2015) versions of AHAM PAC-1 would not 
substantively impact test results.
    DOE further notes that the test conditions in AHAM PAC-1-2015, 
although harmonized with those in CSA C370-2013 and ANSI/ASHRAE 
Standard 128-2011, do not align with the test conditions in the DOE 
test procedures for other cooling products, particularly room ACs and 
central ACs. As noted earlier in this section, the AHAM PAC-1-2015 test 
approach is generally appropriate for portable ACs. However, DOE 
believes that the test conditions in AHAM PAC-1-2009, which align with 
the conditions used for testing other DOE covered products, are more 
appropriate for testing portable AC performance than those in AHAM PAC-
1-2015. The temperatures specified in AHAM PAC-1-2015 were rounded to 
produce whole degrees Celsius, which results in a relative humidity on 
the indoor side (47.0 percent) that differs significantly from the 
relative humidity that DOE has previously determined for room ACs and 
central ACs is representative of a residential air-conditioned space 
(51.1 percent). To maintain consistency among products with similar 
functions, DOE proposes in this SNOPR to revise the test conditions 
proposed in the February 2015 NOPR to those presented in Table III.2 
below, which would replace the test conditions specified in Table 3, 
``Standard Rating Conditions,'' of AHAM PAC-1-2015. As discussed in the 
next section, however, these revisions do not comprise the only changes 
that DOE is proposing in this SNOPR to the rating conditions for 
portable ACs.

                          Table III.2--Revised Standard Rating Conditions--Cooling Mode
----------------------------------------------------------------------------------------------------------------
                                                   Evaporator inlet air, [deg]F     Condenser inlet air, [deg]F
                                                             ([deg]C)                        ([deg]C)
               Test configuration                ---------------------------------------------------------------
                                                     Dry bulb        Wet bulb        Dry bulb        Wet bulb
----------------------------------------------------------------------------------------------------------------
3...............................................       80 (26.7)       67 (19.4)         95 (35)       75 (23.9)
5...............................................       80 (26.7)       67 (19.4)       80 (26.7)       67 (19.4)
----------------------------------------------------------------------------------------------------------------

b. Infiltration Air Conditions
    In the February 2015 NOPR, DOE noted that infiltration from outside 
the conditioned space occurs due to the negative pressure induced as 
condenser air is exhausted to the outdoor space. Although this effect 
is most pronounced for single-duct units, which draw all of their 
condenser air from within the conditioned space, dual-duct units also 
draw a portion of their condenser air from the conditioned space. DOE 
proposed calculating the infiltration air flow rate as the condenser 
exhaust flow rate to the outdoor chamber minus any condenser intake 
flow rate from the outdoor chamber. DOE proposed that the infiltration 
air conditions be 95[emsp14][deg]F dry-bulb temperature and 
75.2[emsp14][deg]F wet-bulb temperature, consistent with the outdoor 
conditions specified in AHAM PAC-1-2014. 80 FR 10211, 10224-10225 (Feb. 
25, 2015).
    The Joint Commenters supported the proposal to use 95[emsp14][deg]F 
dry-bulb temperature and 75[emsp14][deg]F wet-bulb temperature outdoor 
air. (Public Meeting Transcript, ASAP, No. 13 at p. 44; Joint 
Commenters, No. 19 at p. 2)

[[Page 74025]]

The Joint Commenters further stated that because AHAM PAC-1-2014 is 
conducted using these outdoor air conditions, it is important that the 
same conditions be used for the infiltration air to reflect the real-
world performance of portable ACs under these outdoor air conditions. 
The Joint Commenters noted that all infiltration air is ultimately 
coming from the outdoors and adding heat to the home where the portable 
AC is installed. The Joint Commenters suspect that, in many cases, the 
bulk of the infiltration air will be coming directly from the outdoors 
due to imperfect installations, resulting in leaks through the window 
where the portable AC is installed. The Joint Commenters also suspect 
that over time, a greater portion of the infiltration air will come 
directly through the window where the portable AC is installed due to 
deterioration of the installation as the unit is repeatedly removed and 
re-installed. (Joint Commenters, No. 19 at p. 2)
    De' Longhi did not agree with DOE's proposed approach to address 
infiltration air, stating that it would improperly represent the 
performance of single-duct products because the proposed infiltration 
air conditions of 95[emsp14][deg]F dry-bulb temperature and 
75.2[emsp14][deg]F wet-bulb temperature represent worst-case outdoor 
conditions which occur for a negligible period of time during the 
cooling season. De' Longhi noted that according to ANSI/Air-
Conditioning, Heating, and Refrigeration Institute (AHRI) 210/240, 
``Performance Rating of Unitary Air-Conditioning and Air-Source Heat 
Pump Equipment'', outdoor temperatures ranging from 95 to 
104[emsp14][deg]F represent just 2.2 percent of the season while 
outdoor temperatures range from 65 to 80[emsp14][deg]F during 66.1 
percent of the season. De' Longhi stated that selection of an 
appropriate outdoor temperature for rating testing is critical for 
single-duct portable ACs. As a consequence, De' Longhi commented that 
DOE's proposed procedure overstates the impacts of infiltration air. 
(Public Meeting Transcript, De' Longhi, No. 13 at pp. 39-40; De' 
Longhi, No. 16 at p. 3)
    The National Association of Manufacturers (NAM) stated that if the 
test procedure includes an infiltration air adjustment, the temperature 
must be representative and based on data. In NAM's view, given the 
uniqueness of homes, the proposed infiltration air temperatures are not 
practical, nor are they shown to be based on available data. (NAM, No. 
17 at p. 2)
    AHAM commented that portable ACs are not used just on the hottest 
summer days, but also during the transition periods before and after 
summer to cool only a certain room or rooms before central air 
conditioning or heating is turned on. According to AHAM, this use 
pattern suggests that an outdoor temperature representing the hottest 
days of summer is not representative of consumer use. AHAM commented 
that even if consumers use portable ACs only in the summer and only the 
outdoor air temperature is considered, a 95[emsp14][deg]F infiltration 
air temperature would still be too high. (AHAM, No. 18 at p. 4)
    De' Longhi and AHAM suggested that, should DOE include a numerical 
adjustment for infiltration air to the results of testing with AHAM 
PAC-1-2014, the proper temperature for the infiltration air would be 
70[emsp14][deg]F, based on available data. They noted that 
70[emsp14][deg]F is the representative average cooling season 
temperature that DOE found for the United States as a whole. They also 
claimed that according to ANSI/AHRI 210/240-2008, an outdoor 
temperature of 70[emsp14][deg]F represents 50 percent of the total 
cooling season hours. (Public Meeting Transcript, De' Longhi, No. 13 at 
p. 41; De' Longhi, No. 16 at p. 3; AHAM, No. 18 at p. 4) De' Longhi 
further stated that if DOE decides not to use 70[emsp14][deg]F as the 
outdoor air temperature, this test condition should be no greater than 
80.6[emsp14][deg]F dry-bulb, the standard rating condition for single-
duct portable ACs in AHAM PAC-1-2014 for both indoor and outdoor 
conditions. In order to compare single-duct and dual-duct portable ACs 
under the same conditions, De' Longhi would also accept 
80.6[emsp14][deg]F as the outdoor conditions for dual-duct units as 
well. (Public Meeting Transcript, De' Longhi, No. 13 at pp. 43-44; De' 
Longhi, No. 16 at p. 4)
    Friedrich commented that 70[emsp14][deg]F is low for an outdoor 
temperature that would necessitate AC use, and suggested DOE consider 
80[emsp14][deg]F as the outdoor condition. (Public Meeting Transcript, 
Friedrich, No. 13 at pp. 84-85)
    In addition to the proposed temperatures for infiltration air, DOE 
received comments regarding the likely origin of the infiltration air 
to help inform the appropriate infiltration air conditions. De' Longhi 
noted that it is possible that some or all of the replacement air is 
drawn from a location other than the outdoors directly, such as a 
basement, attic, garage, or a space that is conditioned by other 
equipment. Thus, De' Longhi stated that DOE's proposed approach is 
unrealistic, as the building spaces from which infiltration air may be 
drawn and other inside air that may be cooled by central cooling 
systems must be taken into account. De' Longhi also commented that 
DOE's approach did not account for any internal heating loads, solar 
radiation, or thermal lag of the building itself. (Public Meeting 
Transcript, De' Longhi, No. 13 at pp. 41-43; De' Longhi, No. 16 at pp. 
3-4)
    AHAM agreed with De' Longhi, and noted that even if all air in a 
home originates from outdoors, the infiltration air may be cooled once 
indoors. Moreover, AHAM noted that the infiltration air could be at 
different temperatures for a portable AC that is moved from room to 
room--for example, the air in a garage is not likely the same 
temperature as the air in an attic or basement. AHAM commented that if 
DOE accounts for the effects of infiltration air, DOE must ensure that 
the temperature is representative and based on data. In AHAM's view, 
given the uniqueness of homes, that is not practical to do. (AHAM, No. 
18 at pp. 3-4)
    AHAM, NAM, and DENSO stated that should DOE nevertheless move 
forward with its proposal, it must ensure it selects a representative 
test temperature for that infiltration air. They commented that DOE's 
current proposal is not representative and should be revised. (AHAM, 
No. 18 at p. 1; NAM, No. 17 at p. 3; DENSO, No. 14 at p. 3)
    In response to comments received on the February 2015 NOPR, DOE 
conducted additional analysis to ensure the DOE test procedure for 
portable ACs is representative of typical cooling product operation and 
consumer usage. On the matter of the source of infiltration air, DOE 
reviewed information developed on infiltration air flow rates and 
sources for room ACs, which encounter issues for sealing in windows 
similar to portable ACs. In a study conducted by the National Renewable 
Energy Laboratory (NREL),\5\ infiltration air flow rates around the 
louvers on either side of three room AC test units and the air flow 
rates through the units themselves were measured when the units were 
installed in a test chamber outfitted with two residential single-hung 
windows. The units, including the side louvers, were installed per 
manufacturer instructions (i.e., no additional sealing around the 
louvers was provided). A variable-speed blower was used to vary the 
differential pressure between the test chamber and ambient (outdoor 
condition) from 0 to 50 Pascals (Pa). NREL found that at 50

[[Page 74026]]

Pa, the infiltration air flow rates around the louvers ranged from 
approximately 50 to 90 standard cubic feet per minute (SCFM) among the 
three test units. These infiltration air flow rates represented as much 
as two thirds of the rated evaporator air flow rates at high fan speed, 
and similarly would also represent a substantial percentage of the 
infiltration air for a single-duct portable AC. NREL estimated that the 
infiltration air leakage path around the louvers was the equivalent of 
a 27 to 42 square-inch hole in the wall. Because DOE observed that the 
window brackets for mounting the portable AC duct(s) in its test sample 
typically did not include any gasket, tape, or other sealing material, 
it concludes that outdoor air leaking through the portable AC's window 
bracket likely also represents the source of a substantial percentage 
of the infiltration air for portable ACs. Additionally, because 
portable ACs that do not draw all of the condenser air from outside the 
conditioned space create net negative pressure within the conditioned 
space, infiltration air flow is likely greater than for room ACs. 
Therefore, DOE continues to conclude that infiltration air temperature 
is best represented as the outdoor test condition.
---------------------------------------------------------------------------

    \5\ Winkler, J., et al., 2013. ``Laboratory Performance Testing 
of Residential Window Air Conditioners,'' National Renewable Energy 
Laboratory, Technical Report NREL/TP-5500-57617, March 2013.
---------------------------------------------------------------------------

    DOE also notes that the temperature of infiltration air from 
sources other than the window bracket cannot be definitively 
characterized because the air temperature in the other locations may be 
greater than (e.g., an attic) or less than (e.g., a basement) the 
outdoor temperature. In addition, infiltration air that is drawn from 
other conditioned space initially originated from locations that could 
also be direct sources of infiltration air for a portable AC, and thus 
DOE believes that the portable AC should not derive a de facto benefit 
by being rated at a lower infiltration air temperature achieved via the 
energy consumption of other conditioning equipment.
    DOE next considered commenters' suggestion that the outdoor test 
condition in the current version of AHAM PAC-1 may not be 
representative of a significant portion of portable AC operation. DOE 
revisited its climate analysis from the February 2015 NOPR to determine 
the overall average dry-bulb temperature and relative humidity during 
hours allotted for cooling mode operation, in locations where portable 
ACs are likely to be used. DOE again performed this climate analysis 
using 2012 hourly ambient temperature data from the National Climatic 
Data Center (NCDC) of the National Oceanic and Atmospheric 
Administration (NOAA), collected at weather stations in 44 
representative states. DOE determined the average temperature and 
humidity associated with the hottest 750 hours for each state for which 
there was data available. DOE then reviewed data from the 2009 
Residential Energy Consumption Survey (RECS) \6\ to identify room AC 
ownership in the different geographic regions because no portable AC-
specific usage data were available. Based on the RECS ownership data, 
DOE used a weighted-average approach to combine the average temperature 
and humidity for each individual state into sub-regional, regional, and 
finally, the representative national average temperature and humidity 
for the hottest 750 hours in each state.\7\ DOE found that the national 
average dry-bulb temperature and relative humidity associated with the 
hottest 750 hours are 83[emsp14][deg]F and 45 percent, respectively.
---------------------------------------------------------------------------

    \6\ RECS data are available online at: <a href="http://www.eia.gov/consumption/residential/data/2009/">http://www.eia.gov/consumption/residential/data/2009/</a>''<a href="http://www.eia.gov/consumption/residential/data/2009/">www.eia.gov/consumption/residential/data/2009/</a>.
    \7\ For more information on the weighted-average approach that 
DOE conducted for this analyses, see the February 2015 NOPR. 80 FR 
10211, 10235-27 (Feb. 25, 2015).
---------------------------------------------------------------------------

    To maintain harmonization with other cooling products and the AHAM 
PAC-1-2009 test conditions, as discussed previously, and to continue to 
consider cooling performance under a rating condition at which product 
performance is most important to consumers, DOE proposes to specify the 
outdoor test conditions and associated infiltration air conditions of 
95[emsp14][deg]F dry-bulb and 75[emsp14][deg]F wet-bulb temperature. 
However, DOE also proposes in this SNOPR that a second cooling mode 
test be conducted for dual-duct units (Test Configuration 3) at outdoor 
test conditions that reflect the weighted-average temperature and 
humidity observed during the hottest 750 hours (the hours during which 
DOE expects portable ACs to operate in cooling mode): 83[emsp14][deg]F 
dry-bulb temperature and 67.5[emsp14][deg]F wet-bulb temperature. For 
single-duct units (Test Configuration 5), DOE would specify a second 
set of numerical calculations for cooling capacity and CEER based on 
adjustments for infiltration air at these same conditions, rather than 
providing for an additional test at the weighted-average outdoor 
temperature and humidity. In sum, Table III.3 shows the complete set of 
cooling mode rating conditions that DOE proposes for portable ACs in 
this SNOPR.

                      Table III.3--Standard Rating Conditions--Cooling Mode--SNOPR Proposal
----------------------------------------------------------------------------------------------------------------
                                                   Evaporator inlet air, [deg]F     Condenser inlet air, [deg]F
                                                             ([deg]C)                        ([deg]C)
               Test configuration                ---------------------------------------------------------------
                                                     Dry bulb        Wet bulb        Dry bulb        Wet bulb
----------------------------------------------------------------------------------------------------------------
3 (Condition A).................................       80 (26.7)       67 (19.4)         95 (35)       75 (23.9)
3 (Condition B).................................       80 (26.7)       67 (19.4)       83 (28.3)     67.5 (19.7)
5...............................................       80 (26.7)       67 (19.4)       80 (26.7)       67 (19.4)
----------------------------------------------------------------------------------------------------------------

c. Infiltration Air Calculations
    In the February 2015 NOPR, DOE proposed that the sensible and 
latent components of infiltration air heat transfer be calculated using 
the evaporator inlet conditions, to be representative of the indoor 
room's ambient conditions. As discussed above, DOE proposed that the 
nominal indoor test chamber conditions for portable AC testing would be 
80[emsp14][deg]F dry-bulb temperature and 67[emsp14][deg]F wet-bulb 
temperature, resulting in a humidity ratio of 0.0112 pounds of water 
per pounds of dry air (lb<INF>w</INF>/lb<INF>da</INF>). DOE further 
proposed in the February 2015 NOPR that the indoor test chamber dry-
bulb and wet-bulb temperature conditions be maintained within a range 
of 1.0[emsp14][deg]F, with an average difference of 0.3[emsp14][deg]F. 
80 FR 10211, 10224, 10226 (Feb. 25, 2015).
    DOE notes that the allowable tolerances for the indoor evaporator 
inlet conditions would permit variations in the humidity ratio of up to 
8.6 percent. DOE reviewed its test data and found that the maximum 
variation between the measured and proposed humidity ratio was 4.5 
percent. DOE believes that the proposal to use the measured evaporator 
inlet conditions (dry-bulb and wet-bulb temperatures and the resulting 
humidity ratio) when calculating the impacts of infiltration air

[[Page 74027]]

heat transfer may introduce variability in the test results due to the 
sensitivity of infiltration air to the allowable evaporator inlet 
conditions variability and the resulting impact on overall cooling 
capacity. Therefore, DOE proposes in this SNOPR to calculate the 
sensible and latent heat contributions of infiltration air using the 
nominal test chamber temperatures and subsequent humidity ratio to 
reduce test variability.
    DOE further notes that there was an error in the equations proposed 
in the February 2015 NOPR that divided the quantity of heat, in Btu/
min, by 60 instead of multiplying by 60 to convert to Btu/h. 80 FR 
10211, 10224 (Feb. 25, 2015). This SNOPR corrects the calculation error 
in DOE's proposal.
    Based on these changes, DOE proposes in this SNOPR to calculate the 
sensible and latent heat components of infiltration air, using the 
nominal test chamber temperatures and subsequent humidity ratio, as 
follows:

Q<INF>s</INF> = m x 60 x [(c<INF>p_da</INF> x (T<INF>ia</INF> - 
T<INF>indoor</INF>)) + c<INF>p_wv</INF> x ([ohgr]<INF>ia</INF> x 
T<INF>ia</INF> - [ohgr]<INF>indoor</INF> x T<INF>indoor</INF>)]

Where:
Q<INF>s</INF> is the sensible heat added to the room by infiltration 
air, in Btu/h;
m is the dry air mass flow rate of infiltration air for a single-
duct or dual-dual duct unit, in lb/m;
c<INF>p_da</INF> is the specific heat of dry air, 0.24 Btu/
lb<INF>m</INF>-[deg]F.
c<INF>p_wv</INF> is the specific heat of water vapor, 0.444 Btu/
lb<INF>m</INF>-[deg]F.
T<INF>indoor</INF> is the indoor chamber dry-bulb temperature, 
80[emsp14][deg]F.
T<INF>ia</INF> is the infiltration air dry-bulb temperature, 
95[emsp14][deg]F.
[omega]<INF>ia</INF> is the humidity ratio of the infiltration air, 
0.0141 lb<INF>w</INF>/lb<INF>da</INF>.
[omega]<INF>indoor</INF> is the humidity ratio of the indoor chamber 
air, 0.0112 lb<INF>w</INF>/lb<INF>da</INF>.
60 is the conversion factor from minutes to hours.

Q<INF>l</INF> = m x 60 x H<INF>fg</INF> x ([ohgr]<INF>ia</INF> - 
[ohgr]<INF>indoor)</INF>

Where:
Q<INF>l</INF> is the latent heat added to the room by infiltration 
air, in Btu/h.
m is the mass flow rate of infiltration air for a single-duct or 
dual-dual duct unit, in lb/m.
H<INF>fg</INF> is the latent heat of vaporization for water vapor, 
1061 Btu/lb<INF>m</INF>.
[omega]<INF>ia</INF> is the humidity ratio of the infiltration air, 
0.0141 lb<INF>w</INF>/lb<INF>da</INF>.
[omega]<INF>indoor</INF> is the humidity ratio of the indoor chamber 
air, 0.0112 lb<INF>w</INF>/lb<INF>da</INF>.
60 is the conversion factor from minutes to hours.
2. Test Duration
    AHAM PAC-1-2015 specifies testing in accordance with certain 
sections of ANSI/ASHRAE Standard 37-2009, ``Methods of Testing for 
Rating Electrically Driven Unitary Air-Conditioning and Heat Pump 
Equipment'' (ASHRAE 37-2009), but does not explicitly specify the test 
duration required when conducting portable AC active mode testing. 
Therefore, DOE proposes in this SNOPR that the active mode test 
duration shall be determined in accordance with section 8.7 of ASHRAE 
37-2009.
3. Seasonally Adjusted Cooling Capacity
    In the February 2015 NOPR, DOE proposed a calculation for adjusted 
cooling capacity, ACC, defined as the measured cooling capacity 
adjusted for case, duct, and infiltration air heat transfer impacts. 80 
FR 10211, 10225 (Feb. 25, 2015).
    With the proposal to add a second cooling mode test condition for 
dual-duct portable ACs and, similarly, a second numerically applied 
infiltration air condition for single-duct portable ACs, DOE proposes 
that the adjusted cooling capacities for both sets of conditions be 
combined to create a seasonally adjusted cooling capacity, SACC. The 
higher outdoor temperature condition is consistent with that used for 
testing other air conditioning equipment and ensures that products can 
operate when they are most needed, while the cooler condition 
represents the typical outdoor temperatures encountered during use. 
Because the performance of a portable AC is important under each of 
these scenarios, DOE proposes in this SNOPR to weight the adjusted 
cooling capacities obtained under the two cooling mode conditions to 
calculate the SACC as follows.
    Using an analytical approach based on climate and RECS data that 
was similar to the method used to determine representative rating 
conditions, DOE estimated the percentage of portable AC operating hours 
that would be associated with each rating condition. From the climate 
data, DOE allocated the number of annual hours with temperatures that 
ranged from 80[emsp14][deg]F (the indoor test condition) to 
89[emsp14][deg]F (a temperature mid-way between the two rating 
conditions) to the 83[emsp14][deg]F rating condition. The hours in 
which the ambient temperature was greater than 89[emsp14][deg]F were 
assigned to the 95[emsp14][deg]F rating condition. DOE then performed 
the geographical weighted averaging using the RECS data as discussed in 
section III.1.b to determine weighting factors of 19.7 percent and 80.3 
percent, respectively, for the 95[emsp14][deg]F and 83[emsp14][deg]F 
rating conditions. A similar approach was adopted for central ACs, 
where DOE specifies eight test conditions and corresponding weighting 
factors that are based on the distribution of fractional hours for 
representative temperature bins.\8\ For portable ACs, DOE estimated 
hours per temperature bin from the climate data analysis, and proposes 
in this SNOPR to apply weighting factors of 20 percent and 80 percent 
to the results of its testing at 95[emsp14][deg]F and 83[emsp14][deg]F, 
respectively. DOE welcomes input on whether different weighting factors 
would be appropriate.
---------------------------------------------------------------------------

    \8\ The DOE test procedure for central ACs is codified at 10 CFR 
part 430, subpart B, appendix M.
---------------------------------------------------------------------------

    Therefore, DOE proposes to calculate SACC according to the 
following equation.

SACC = (ACC<INF>95</INF> x 0.2) + (ACC<INF>83</INF> x 0.8)

Where:
SACC is the seasonally adjusted cooling capacity, in Btu/h.
ACC<INF>95</INF> and ACC<INF>83</INF> are the adjusted cooling 
capacities calculated at the 95[emsp14][deg]F and 83[emsp14][deg]F 
dry-bulb outdoor conditions, in Btu/h, respectively.
0.2 is the weighting factor for ACC<INF>95</INF>.
0.8 is the weighting factor for ACC<INF>83</INF>.
4. Duct Heat Transfer and Leakage
    In the February 2015 NOPR, DOE presented its determination that 
duct heat losses and air leakage are non-negligible effects, and 
therefore proposed to account for heat transferred from the duct 
surface to the conditioned space in the portable AC test procedure. DOE 
proposed that four equally spaced thermocouples be adhered to the side 
of the entire length of the condenser exhaust duct for single-duct 
units and the condenser inlet and exhaust ducts for dual-duct units. 
DOE proposed to determine the duct heat transfer for each duct from the 
average duct surface temperature as measured by the four thermocouples, 
a convection heat transfer coefficient of 4 Btu/h per square foot per 
[deg]F (Btu/h-ft<SUP>2-</SUP>[deg]F), and the calculated duct surface 
area based on the test setup. 80 FR 10211, 10227 (Feb. 25, 2015).
a. Duct Heat Transfer Impacts
    ASAP supported incorporating the duct heat transfer effects into 
the measurement of cooling capacity, and noted that there was a 
reasonably good correlation between the results using the calorimeter 
method and the modified AHAM method, as presented in the February 2015 
NOPR. (Public Meeting Transcript, ASAP, No. 13 at p. 56)
    AHAM and De' Longhi stated that DOE's proposed test for duct heat 
transfer and leakage unnecessarily complicates the test procedure 
without a corresponding benefit. They also stated that the methodology 
for the temperature sensor placement and determination of overall heat 
losses may be interpreted differently. AHAM

[[Page 74028]]

further commented that should DOE decide to include provisions for duct 
heat transfer and leakage, DOE should evaluate the impact of these 
effects on test procedure repeatability and reproducibility, preferably 
through a round robin test including manufacturers and third-party 
laboratories. (AHAM, No. 18 at p. 5; De' Longhi, No. 16 at p. 4)
    China commented that DOE did not present the percent of the total 
cooling capacity associated with the duct and case heat transfer, and 
that it would be necessary to consider such data before adopting an 
approach that accounts for these heat transfer effects. (China, No. 15 
at p. 3)
    In response to these comments, DOE conducted further analysis to 
quantify the impacts of duct heat transfer. Figure III.1 shows the 
impact of duct heat transfer as a percentage of the AHAM PAC-1-2009 
cooling capacity measured in the February 2015 NOPR for each unit in 
DOE's test sample. Exhaust duct heat transfer is presented for each 
single-duct unit, while a pair of values for inlet duct heat transfer 
and exhaust duct heat transfer are presented for each dual-duct unit.
[GRAPHIC] [TIFF OMITTED] TP27NO15.003

    As shown in Figure III.1, the exhaust duct heat transfer determined 
according to the proposed methodology ranged from just below 6 percent 
to almost 18 percent of the AHAM PAC-1-2009 cooling capacity, with an 
average value of 11.1 percent. The intake duct heat transfer effect was 
lower than that of the exhaust duct due to the lower air temperature at 
the inlet, with values ranging from about 3 percent to almost 5 percent 
of the unadjusted cooling capacity and an average of 3.7 percent. DOE 
finds the exhaust and intake duct heat transfer impacts sufficiently 
significant to warrant the added test burdens associated with 
determining duct heat transfer. Therefore, DOE maintains the proposal 
from the February 2015 NOPR to measure and incorporate the duct heat 
transfer impacts into the overall seasonally adjusted cooling capacity.
b. Convection Coefficient
    DENSO considered the 4 Btu/h-ft\2-\[deg]F convection coefficient 
proposed for the duct heat transfer calculation to be arbitrary, and 
recommended measuring the conditions of the air at the inlet and outlet 
of each duct to substantiate that factor. (Public Meeting Transcript, 
DENSO, No. 13 at p. 53; DENSO, No. 14 at p. 2) DOE recognizes that 
different test setups may have somewhat different convective heat 
transfer coefficients. However, when developing test procedures, DOE 
must consider the test burden and impact on manufacturers and test 
laboratories. Taking that into consideration, DOE proposed an approach 
in the February 2015 NOPR that would minimize burden while capturing 
the impact of heat transfer from ducts, which DOE determined to have a 
significant impact on overall net cooling capacity. DOE also notes that 
the approach proposed by DENSO to characterize heat loss to the 
conditioned space would significantly increase test burden, requiring 
additional thermocouples and modification of the test setup on the 
unit-side of the duct. Further, DOE notes that the convection heat 
transfer coefficient may vary among different laboratories and even for 
different chambers and test setups within each test laboratory. This 
would introduce variability from test to test, as the heat transfer 
coefficient may be highly sensitive to the specific test setup. To 
minimize the test burden and limit variability, DOE proposed one 
convection heat transfer coefficient for all units to provide a 
consistent estimate of the duct heat transfer.
    In the February 2015 NOPR, DOE estimated the convection heat 
transfer coefficient to be 4 Btu/h-ft\2-\[deg]F based on a midpoint of 
values associated with free convection and forced convection, as 
recommended by the test laboratory that conducted testing for the NOPR. 
80 FR 10211, 10219 (Feb. 25, 2015). The convection coefficient was 
based on values derived from coefficients listed in the 2013 ASHRAE 
Handbook--

[[Page 74029]]

Fundamentals \9\ for various types of assemblies in buildings. 
Depending on the orientation of the surface, direction of heat flow, 
and emissivity of the heat transfer surface, the typical coefficients 
for indoor assemblies, which DOE deduced would be subject primarily to 
free convection, ranged from 0.22 to 1.63 Btu/h-ft\2-\[deg]F. ASHRAE 
also provided coefficients for assemblies located outside and subject 
to wind speeds of 7.5 and 15 miles per hour (5.1 and 10.2 feet per 
second, respectively), which were 4.00 and 6.00 Btu/h-ft\2-\[deg]F, 
respectively. Because these speeds potentially correspond to air flow 
speeds over the portable AC duct(s) due to circulation of the 
conditioned air in the space, for example by the portable AC blower and 
infiltration air, DOE used these values as proxies for convective heat 
transfer coefficients for the duct surfaces. Therefore, DOE proposed in 
the February 2015 NOPR that the overall heat transfer coefficient for 
calculating duct heat losses would be 4 Btu/h-ft\2-\[deg]F, an 
approximate midpoint of the values described.
---------------------------------------------------------------------------

    \9\ ASHRAE Handbook--Fundamentals. American Society of Heating, 
Refrigerating, and Air-Conditioning Engineers, Atlanta, GA. 2013.
---------------------------------------------------------------------------

    To further validate the proposed convection heat transfer 
coefficient for this notice, DOE re-examined the data it obtained from 
testing a sample of four single-duct and two dual-duct portables ACs 
with and without duct insulation for the May 2014 NODA. These tests 
were conducted using the calorimeter approach described in the May 2014 
NODA, such that duct heat losses could be measured by subtracting the 
measured cooling capacity without insulation from the cooling capacity 
with insulation. Using the duct heat losses, duct surface area, and the 
differential between the indoor side ambient temperature and the 
average of the duct surface temperatures, an average duct heat transfer 
coefficient could be empirically determined for units in DOE's test 
sample. The results of this calculation are shown in Table III.4 below.

    Table III.4--Measured Duct Convection Heat Transfer Coefficients
------------------------------------------------------------------------
                                                               Duct
                                                            convection
                                                          heat transfer
                       Test unit                           coefficient
                                                           (Btu/h-ft\2-
                                                             \[deg]F)
------------------------------------------------------------------------
SD1....................................................             2.74
SD2....................................................             3.08
SD3....................................................             1.70
SD4....................................................             5.26
DD1 (Test 1)...........................................             4.10
DD1 (Test 2)...........................................             3.76
DD2 (Test 1)...........................................             2.11
DD2 (Test 2)...........................................             2.27
Average................................................             3.13
------------------------------------------------------------------------
SD = Single-duct.
DD = Dual-duct.

    Although the average heat transfer coefficient calculated from 
DOE's test results was slightly lower than the value proposed in the 
February 2015 NOPR, DOE notes that there is variation in individual 
results that is likely due to different duct types, installation 
configurations, forced convection air flow patterns, and other factors. 
Therefore, DOE proposes to maintain the original duct heat transfer 
proposal from the February 2015 NOPR, including the convection heat 
transfer coefficient of 4 Btu/h-ft\2-\[deg]F.
c. Duct Surface Area Measurements
    In the February 2015 NOPR, DOE proposed that the duct surface area 
be calculated using the outer duct diameter and extended length of the 
duct while under test. 80 FR 10211, 10227 (Feb. 25, 2015).
    De' Longhi and AHAM commented that ducts often have a corrugated 
surface, so that the measure of the duct(s) surface area will have high 
uncertainty. (De' Longhi, No. 16 at p. 4; AHAM, No. 18 at p. 5) DOE 
further examined the surface area of the ducts in its test sample. DOE 
calculated the surface area in two ways, one with the ducts fully 
extended and the other with the duct setup as required in AHAM PAC-1-
2015. DOE found that the average difference in surface area calculated 
using the fully extended duct versus using the test setup was 7.5 
percent. With the average duct impact on cooling capacity of 11.1 
percent and 3.7 percent for single-duct and dual-duct units, 
respectively, the overall variability that differences in duct surface 
area determinations would introduce into the cooling capacity would be 
no greater than 1 percent. Therefore, DOE concludes that any 
uncertainty in duct surface area measurements would not have a 
significant impact on test repeatability and reproducibility and 
maintains the surface area measurement as proposed in the February 2015 
NOPR.
5. Case Heat Transfer
    In the February 2015 NOPR, DOE proposed that case heat transfer be 
determined using a method similar to the approach proposed for duct 
heat transfer. DOE proposed that the surface area and average 
temperature of each side of the case be measured to determine the 
overall case heat transfer, which would be used to adjust the cooling 
capacity and efficiency. DOE noted that the case heat transfer 
methodology would impose additional test burden, but determined that 
the burdens were likely outweighed by the benefit of addressing the 
heat transfer effects of all internal heating components. 80 FR 10211, 
10227-10229 (Feb. 25, 2015).
    DENSO commented that DOE should incorporate the effects of 
evaporator fan heat rather than case heat transfer effects, because all 
of the fan motor power ends up in the evaporator exhaust air stream. 
DENSO also stated that heat transfer mechanics for all surfaces of the 
case are not the same. (DENSO, No. 14 at p. 2)
    Friedrich believes that there is no need to measure heat loss from 
the electrical components inside the case because the end result of the 
test would be the total cooling capacity coming from the portable AC 
and the total measure of energy consumption. (Public Meeting 
Transcript, Friedrich, No. 13 at p. 34)
    De' Longhi noted that because there is a wide range in unit design, 
each portable AC may have uniquely shaped faces on the case, and it 
would be very difficult or impossible to identify the front, back, 
right, left, top, and bottom of the case. De' Longhi stated that 
laboratories may measure the surface temperature differently, and 
therefore, the proposal in the February 2015 NOPR may lead to 
inconsistencies among different laboratories. De' Longhi further 
suggested that the convection coefficient should be different for each 
side of the case due to the different orientation of each surface, and 
commented that a small variation in the position of the temperature 
sensors can cause significant differences in the average temperatures 
of each case. (Public Meeting Transcript, De' Longhi, No. 13 at pp. 55-
56; De' Longhi, No. 16 at p. 4)
    AHAM stated that the proposed methodology for determining case heat 
transfer unnecessarily complicates the test procedure and will likely 
lead to variation. AHAM believes the impact of case heat transfer is 
negligible and does not justify the added burden and variation. 
According to AHAM, if DOE

[[Page 74030]]

continues to consider case heat transfer, DOE should characterize the 
proposed test procedure's repeatability and reproducibility, preferably 
through a round robin test including manufacturers and third-party 
laboratories. (AHAM, No. 18 at pp. 5-6)
    In response to these comments, DOE further investigated the effects 
of case heat transfer as a percentage of the overall cooling capacity 
by analyzing the data determined in accordance with AHAM PAC-1-2009 for 
the February 2015 NOPR. Figure III.2 shows, for each portable AC in its 
test sample, the heat transfer determined for each case side and the 
sum of all case sides as a percentage of the AHAM PAC-1-2009 cooling 
capacity.
[GRAPHIC] [TIFF OMITTED] TP27NO15.004

    From the data in Figure III.2, DOE calculated that the average heat 
transfer for individual case sides was 0.29 percent of the AHAM PAC-1-
2009 cooling capacity, and the maximum heat transfer observed for a 
single side was 2.27 percent. The total case heat transfer impact was, 
on average, 1.76 percent of the AHAM PAC-1-2009 cooling capacity, with 
a maximum of 6.53 percent. Because the total case heat transfer impact 
is, on average, less than 2 percent of the cooling capacity without 
adjustments for infiltration air and heat transfer effects, DOE 
proposes to remove the provisions for determining case heat transfer 
from the proposed portable AC test procedure.
6. Test Unit Placement
    In the February 2015 NOPR, DOE proposed that for all portable AC 
configurations, there must be no less than 6 feet between the 
evaporator inlet and any chamber wall surface, and for single-duct 
units, there must be no less than 6 feet between the condenser inlet 
surface and any other wall surface. Additionally, DOE proposed that 
there be no less than 3 feet between the other surfaces of the portable 
AC with no air inlet or exhaust (other than the bottom of the unit) and 
any wall surfaces. 80 FR 10211, 10229-10230 (Feb. 25, 2015).
    According to DENSO, the 6-foot minimum spacing would cause an 
unreasonable performance penalty when duct losses are incorporated into 
the efficiency rating. DENSO further noted that the ducted side of a 
portable AC is often located relatively close to the wall where the 
duct is mounted. (DENSO, No. 14 at p. 3)
    AHAM objected to the proposed test unit placement, commenting that, 
due to duct length, it may not be feasible to maintain the proposed 
distances from the partition wall. AHAM stated that this particular 
distance is variable and unit-dependent, and should not be applicable 
for single-duct or dual-duct units. (AHAM, No. 18 at pp. 6-7)
    De' Longhi requested clarification as to whether the back of the 
unit, or side with the duct attachments, is considered a side that must 
be placed at the minimum distance from the chamber or partition walls. 
If so, De' Longhi commented that the unit should be placed at least 6 
feet from the partition wall and the ducts would likely not reach. 
(Public Meeting Transcript, De' Longhi, No. 13 at pp. 59-60; De' 
Longhi, No. 16 at p. 4)
    DOE recognizes that the length of the duct and duct setup as 
outlined in AHAM PAC-1-2015 dictate the distance of the portable AC 
from the partition wall. Therefore, DOE proposes to adjust the February 
2015 NOPR proposals for unit placement that would have required no less 
than 6 feet between the evaporator inlet and any chamber wall surfaces, 
and for single-duct units, no less than 6 feet between the condenser 
inlet surface and any other wall surface. Because AHAM PAC-1-2015 
specifies the distance between the test unit and the partition wall, 
DOE proposes that the test unit be placed in such a way that there is 
no less than 3 feet between any test chamber wall and any surface on 
the portable AC, except the surface or surfaces that have a duct 
attachment, as prescribed by the AHAM PAC-1-2015 test setup 
requirements. DOE notes that this test unit placement would provide 
manufacturers and test laboratories more flexibility in the use of 
their test chambers than that proposed in the

[[Page 74031]]

February 2015 NOPR, and would still provide sufficient space around the 
test unit to ensure free air flow with no air constriction.

C. Heating Mode

    As discussed in the February 2015 NOPR, certain portable ACs, 
including some of the units in DOE's test sample, incorporate a heating 
function in addition to cooling mode. DOE proposed to define heating 
mode as an active mode in which a portable AC has activated the main 
heating function according to the thermostat or temperature sensor 
signal, including activating a resistance heater, the refrigeration 
system with a reverse refrigerant flow valve, or the fan or blower 
without activation of the resistance heater or refrigeration system. 80 
FR 10211, 10217 (Feb. 25, 2015). In the February 2015 NOPR, DOE 
concluded that a heating mode test to measure heating mode performance 
was feasible, and proposed a heating mode test procedure that utilized 
AHAM PAC-1-2014 at lower temperature ambient conditions and with 
comparable adjustments as were considered for cooling mode. 80 FR 
10211, 10230-10231 (Feb. 25, 2015).
    AHAM and De' Longhi opposed DOE's proposal to require testing in 
heating mode. They noted that heating mode is not the main consumer 
utility offered by portable ACs, and commented that it was not clear 
how often consumers use the heating feature and whether the burden of 
including this mode in the test procedure would be justified. AHAM, 
NAM, and De' Longhi commented that there are not sufficient heating 
mode data upon which to determine whether to include measurement of or 
assign annual operating hours to heating mode. AHAM and NAM further 
noted that in the heating analysis, DOE assumed that the consumer will 
use a portable AC in heating mode when the temperature has fallen below 
45[emsp14][deg]F, but presented no consumer data to support that 
assumption. According to AHAM, consumer usage of portable ACs in 
heating mode is extremely limited due to the seasonality of the 
product. AHAM, NAM, and De' Longhi commented that DOE should be 
consistent with its other analyses when considering heating mode. For 
example, they stated that DOE did not propose testing in fan-only mode 
because it would be impractical, nor did it propose testing in 
dehumidification mode because it is not the primary mode of operation 
for portable ACs. These commenters considered heating mode to be no 
different, and therefore concluded that DOE should not require it to be 
tested. (Public Meeting Transcript, AHAM, No. 13 at p. 64; AHAM, No. 18 
at pp. 7, 10; De' Longhi, No. 16 at p. 5; NAM, No. 17 at p. 2)
    AHAM noted that many of the comments submitted regarding cooling 
mode would also apply to heating mode where applicable. Specifically, 
should DOE require measurement of heating mode, AHAM would not object 
to DOE's proposal to use the unit and duct setup requirements and 
control settings of AHAM PAC-1-2014, as well as the test configurations 
referenced in Table 2 of AHAM PAC-1-2014. AHAM opposed the inclusion of 
infiltration air, duct heat transfer, case transfer, and test unit 
placement for heating mode as discussed for cooling mode. (AHAM, No. 18 
at pp. 7-8)
    DENSO stated that its cooling mode comments are generally 
applicable for heating mode as well. (DENSO, No. 14 at p. 3)
    After considering stakeholder comments opposing the test procedure 
for heating mode and in light of the test burden that the heating mode 
test would impose, DOE proposes to remove the heating mode test 
provisions from the proposed DOE portable AC test procedure, including 
the definition of heating mode and calculations for EER<INF>hm</INF> 
and total combined energy efficiency ratio. Accordingly, the cooling-
specific energy efficiency ratio, EER<INF>cm</INF>, is no longer 
necessary, as the combined efficiency ratio, CEER, would appropriately 
represent energy efficiency in all modes under consideration. DOE 
expects that measuring performance in cooling mode, off-cycle mode, 
standby mode, and off mode would capture representative performance of 
portable ACs during the cooling season. DOE may reconsider including a 
test for heating mode in a future test procedure rulemaking.

D. Combined Energy Efficiency Ratio

    In the February 2015 NOPR, DOE proposed a single energy 
conservation standard metric for portable ACs, in accordance with the 
requirements of EPCA. (42 U.S.C. 6295(gg)(3)(A)) The single integrated 
efficiency metric, CEER, weights the average power in each operating 
mode, as measured by the proposed test procedure, with estimated annual 
operating hours for each mode. The modes considered in the February 
2015 NOPR procedure were cooling mode, heating mode, off-cycle mode 
(with and without fan operation), inactive mode (including bucket-full 
mode), and off mode. 80 FR 10211, 10234-10235 (Feb. 25, 2015).
1. Annual Operating Mode Hours
    As presented in the February 2015 NOPR, DOE developed several 
estimates of portable AC annual operating mode hours for cooling, 
heating, off-cycle, and inactive or off modes. However, the three 
estimates that addressed units with both cooling and heating mode 
operating hours are no longer applicable with the removal of the 
heating mode test procedure. Therefore, for this revised analysis, DOE 
considered the annual operating mode hours for all portable ACs to be 
those from the ``Cooling Only'' scenario presented in the February 2015 
NOPR as follows:

          Table III.5--Proposed Annual Operating Hours by Mode
------------------------------------------------------------------------
                                                              Operating
                           Modes                                hours
------------------------------------------------------------------------
Cooling Mode...............................................          750
Off-Cycle Mode.............................................          880
Off/Inactive Mode..........................................        1,355
------------------------------------------------------------------------

    More information on the development of these annual hours for each 
operating mode can be found in the February 2015 NOPR. 80 FR 10211, 
10235-10237 (Feb. 25, 2015).
    Friedrich noted that it rates its portable AC energy consumption 
based on 750 hours, the same cooling mode operating hours as room ACs. 
Friedrich suggested that DOE maintain the proposal of 750 annual 
cooling mode operating hours for portable ACs to maintain harmonization 
with room ACs and properly reflect unit annual energy consumption. 
(Public Meeting Transcript, Friedrich, No. 13 at p. 84)
    AHAM and NAM disagreed with DOE's proposals, stating that the 
majority of the analysis was based on outdated room AC data. They 
asserted that although portable ACs and room ACs are similar in some 
ways, the usage profiles and installation locations of the two products 
differ. AHAM and NAM urged DOE to obtain data on consumer usage of 
portable ACs or demonstrate that consumer use of portable ACs and room 
ACs are sufficiently comparable. (Public Meeting Transcript, AHAM, No. 
13 at pp. 81-83; AHAM, No. 18 at p. 10; NAM, No. 17 at pp. 1-2)
    AHAM and NAM also objected to DOE basing the proposed unplugged 
hours on assumptions, without any consumer study or supporting data. 
These commenters stated that DOE should obtain consumer use data in 
order to inform its proposal on the number of unplugged hours. (Public 
Meeting Transcript, AHAM, No. 13 at p. 81; AHAM, No. 18 at p. 10; NAM, 
No. 17 at p. 2)

[[Page 74032]]

    AHAM further commented that it is not aware of consumer usage data 
for portable ACs, but would attempt to request that information from 
its members. AHAM urged DOE not to proceed in the absence of such 
consumer use data. (Public Meeting Transcript, AHAM, No. 13 at pp. 83-
84)
    Neither AHAM nor manufacturers provided additional consumer usage 
data, and no further data were available from RECS or other sources. 
Therefore, DOE continues to utilize the most relevant consumer use data 
available and proposes the annual operating hours in Table III.5, 
maintaining the analysis and approach described in the February 2015 
NOPR. DOE welcomes any additional information and data regarding 
consumer use to further inform the proposed annual mode operating 
hours.
2. CEER Calculation
    In addition to the CEER metric that incorporated energy consumption 
in all operating modes, including heating mode, DOE proposed a 
simplified CEER metric in the February 2015 NOPR for portable ACs that 
do not include a heating mode (CEER<INF>cm</INF>). The CEER calculation 
in the February 2015 NOPR would equal CEER<INF>cm</INF> for units 
without heating mode. With the newly proposed removal of heating mode 
from the test procedure and addition of a second set of testing 
conditions for dual-duct units, DOE also proposes in this SNOPR to 
eliminate the CEER<INF>cm</INF> calculation and to revise the CEER 
metric calculation as follows, using the same weighting factors as were 
developed for SACC. The revised calculations also correctly divide 
energy consumption by annual cooling mode hours rather than total 
annual hours, as was initially proposed in the February 2015 NOPR.
[GRAPHIC] [TIFF OMITTED] TP27NO15.005


Where:

CEER<INF>SD</INF> and CEER<INF>DD</INF> are the combined energy 
efficiency ratios for single-duct and dual duct units, respectively, 
in Btu/Wh.
ACC<INF>95</INF> and ACC<INF>83</INF> are the adjusted cooling 
capacities, tested at the 95[emsp14][deg]F and 83[emsp14][deg]F dry-
bulb outdoor conditions, respectively, in Btu/h.
AEC<INF>SD</INF> is the annual energy consumption in cooling mode 
for single-duct units, in kWh/year.
AEC<INF>95</INF> is the annual energy consumption in cooling mode 
for dual-duct units, assuming all cooling mode hours would be at the 
95[emsp14][deg]F dry-bulb outdoor conditions, in kWh/year.
AEC<INF>83</INF> is the annual energy consumption in cooling mode 
for dual-duct units, assuming all cooling mode hours would be at the 
83[emsp14][deg]F dry-bulb outdoor conditions, in kWh/year.
AEC<INF>T</INF> is the total annual energy consumption attributed to 
all modes except cooling, in kWh/year.
t is the number of cooling mode hours per year, 750.
k is 0.001 kWh/Wh conversion factor for watt-hours to kilowatt-
hours.
0.2 is the weighting factor for the 95[emsp14][deg]F dry-bulb 
outdoor condition test.
0.8 is the weighting factor for the 83[emsp14][deg]F dry-bulb 
outdoor condition test.

    The February 2015 NOPR included incorrect text stating that the 
representative CEER would be the mean of the test unit efficiencies. 
DOE proposes in this SNOPR to clarify that the representative CEER for 
a basic model is calculated based on the sampling plan instructions 
proposed in 10 CFR 429.62. DOE further maintains its proposal that the 
CEER would be rounded to the nearest 0.1 Btu/Wh.

E. Compliance With Other Energy Policy and Conservation Act 
Requirements

1. Test Burden
    EPCA requires that any test procedures prescribed or amended shall 
be reasonably designed to produce test results which measure energy 
efficiency, energy use, or estimated annual operating cost of a covered 
product during a representative average use cycle or period of use, and 
shall not be unduly burdensome to conduct. (42 U.S.C. 6293(b)(3)) In 
the February 2015 NOPR, DOE concluded that establishing a test 
procedure to measure the energy consumption of portable ACs in active 
mode, standby mode, and off mode would produce the required test 
results and would not be unduly burdensome to conduct. This 
determination was driven by the many similarities between the necessary 
testing equipment and facilities for portable ACs and other products, 
whose performance is currently certified through a DOE test procedure. 
Therefore, DOE concluded that manufacturers would not be required to 
make significant investment in test facilities and new equipment.
    DOE notes that the modifications to the portable AC test procedures 
introduced in this notice, mainly the additional test condition in 
cooling mode for dual-duct units and the removal of heating mode 
testing and case heat transfer considerations, would not significantly 
increase the overall test burden compared to the test procedure 
proposed in the February 2015 NOPR. Further, because the added cooling 
mode test conditions are closer to those of the originally proposed 
cooling mode test than the test conditions for the heating mode test, 
DOE estimates that less time would be required to achieve and maintain 
the chamber conditions for the second cooling mode test than for a 
heating mode test, decreasing the test burden for dual-duct units with 
a heating mode. In addition, the outdoor test chamber would not be 
required to reach the low temperatures required for the proposed 
heating mode test, which may have presented difficulties for some 
manufacturers and test laboratories to achieve.
    For dual-duct units without a heating mode, the proposals in this 
notice would introduce test burden by requiring a second cooling mode 
test. However, the removal of case surface temperature measurements 
would likely mitigate the increased burden associated with this second 
cooling mode test, resulting in similar overall test burden as for the 
test procedure proposed in the February 2015 NOPR.
    DOE concludes that although this SNOPR introduces modifications to 
the test procedures proposed in the February 2015 NOPR, it does not 
significantly increase the test burden,

[[Page 74033]]

and may instead reduce the overall test burden. Therefore, the 
determination in the February 2015 NOPR that the proposed portable AC 
test procedure would produce test results that measure energy 
consumption during representative use and that the test procedure would 
not be unduly burdensome to conduct still applies.

IV. Procedural Issues and Regulatory Review

    DOE has concluded that the determinations made pursuant to the 
various procedural requirements applicable to the February 2015 NOPR, 
set forth at 80 FR 10212, 10238-10241, remain unchanged for this SNOPR, 
except for the following additional analysis and determination DOE 
conducted in accordance with the Regulatory Flexibility Act (5 U.S.C. 
601 et seq.).

A. Review Under the Regulatory Flexibility Act

    The Regulatory Flexibility Act (5 U.S.C. 601 et seq.) requires 
preparation of an initial regulatory flexibility analysis (IFRA) for 
any rule that by law must be proposed for public comment, unless the 
agency certifies that the rule, if promulgated, will not have a 
significant economic impact on a substantial number of small entities. 
As required by Executive Order 13272, ``Proper Consideration of Small 
Entities in Agency Rulemaking,'' 67 FR 53461 (August 16, 2002), DOE 
published procedures and policies on February 19, 2003, to ensure that 
the potential impacts of its rules on small entities are properly 
considered during the DOE rulemaking process. 68 FR 7990. DOE has made 
its procedures and policies available on the Office of the General 
Counsel's Web site: <a href="http://energy.gov/gc/office-general-counsel">http://energy.gov/gc/office-general-counsel</a>.
    DOE reviewed this proposed rule under the provisions of the 
Regulatory Flexibility Act and the procedures and policies published on 
February 19, 2003. DOE's IRFA is set forth in the February 2015 NOPR, 
with additional analysis below based on the proposals in this SNOPR. 
DOE seeks comment on its analysis and the economic impacts of the rule 
on small manufacturers. In the February 2015 NOPR, DOE estimated that 
there is one small business that manufactures portable ACs. Since the 
February 2015 NOPR, DOE has determined that this small business no 
longer produces portable ACs and, therefore, DOE is unable to identify 
any small businesses that currently manufacture portable ACs. For this 
reason, DOE tentatively concludes and certifies that the proposed rule 
would not have a significant economic impact on a substantial number of 
small entities. Accordingly, DOE has not prepared a regulatory 
flexibility analysis for this rulemaking. DOE will transmit the 
certification and supporting statement of factual basis to the Chief 
Counsel for Advocacy of the Small Business Administration (SBA) for 
review under 5 U.S.C. 605(b).
    In the alternative, should any small business manufacturers of 
portable ACs be identified, DOE evaluated the modifications proposed in 
this SNOPR to determine if these modification would have a significant 
economic impact on small businesses as compared to the proposals in the 
February 2015 NOPR. DOE believes that these modifications are likely to 
reduce overall test burden with respect to the proposals in the 
February 2015 NOPR, and therefore would not have a significant economic 
impact on small businesses, should any be identified.
    In this SNOPR, DOE proposes to increase the number of cooling mode 
tests for dual-duct portable ACs from one test to two tests at 
different outdoor test conditions. Although this increase requires 
running the cooling mode test a second time, DOE notes that the test 
setup would not need to be modified between testing and as such would 
not significantly increase the test burden beyond that for a single 
cooling mode test. The remaining changes associated with the additional 
outdoor test condition impact the post-testing calculations and 
therefore do not increase test burden.
    DOE further proposes in this SNOPR to remove the measurement of 
case heat transfer and the heating mode testing requirements that were 
originally proposed in the February 2015 NOPR. The removal of the case 
heat transfer measurement eliminates the added burden of determining 
surface area of each case surface and measuring the average temperature 
of each surface. In addition, the removal of the heating mode test 
significantly reduces test burden for dual-duct units with a heating 
mode, in that a substantial stabilization period is avoided that would 
require reducing the outdoor chamber conditions well below those for 
the cooling mode test.
    In the February 2015 NOPR, DOE concluded that the costs associated 
with the February 2015 NOPR proposals were small compared to the 
overall financial investment needed to undertake the business 
enterprise of developing and testing consumer products. 80 FR 10211, 
10239. Compared to the proposals in the February 2015 NOPR, there is no 
net change in the number of tests or power metering instrumentation 
required. In addition, the elimination of the case heat transfer 
requirement would avoid the potential need for setting up and 
purchasing additional temperature sensors, estimated to cost less than 
$500 for both equipment and labor.
    On the basis of this analysis, DOE tentatively concludes that the 
proposed rule would not have a significant economic impact on a 
substantial number of small entities, should any small business 
manufacturers of portable ACs be identified.
    DOE seeks comment on the determinations in this section and 
information on whether any small businesses manufacture portable ACs.

B. Description of Materials Incorporated by Reference

    In this SNOPR, DOE proposes to incorporate by reference the test 
standard published by AHAM, titled ``Portable Air Conditioners,'' AHAM 
PAC-1-2015. AHAM PAC-1-2015 is an industry accepted test procedure that 
measures portable AC performance in cooling mode and is applicable to 
products sold in North America. AHAM PAC-1-2015 specifies testing 
conducted in accordance with other industry accepted test procedures 
(already incorporated by reference) and determines energy efficiency 
metrics for various portable AC configurations. The test procedure 
proposed in this SNOPR references various sections of AHAM PAC-1-2015 
that address test setup, instrumentation, test conduct, calculations, 
and rounding. AHAM PAC-1-2015 is readily available on AHAM's Web site 
at <a href="http://www.aham.org/ht/d/ProductDetails/sku/PAC12009/from/714/pid/">http://www.aham.org/ht/d/ProductDetails/sku/PAC12009/from/714/pid/</a>.
    In this SNOPR, DOE also proposes to incorporate by reference the 
test standard ASHRAE Standard 37-2009, titled ``Methods of Testing for 
Rating Electrically Driven Unitary Air-Conditioning and Heat Pump 
Equipment,'' (ANSI Approved). ANSI/ASHRAE Standard 37-2009 is an 
industry-accepted test standard referenced by AHAM PAC-1-2015 that 
defines various uniform methods for measuring performance of air 
conditioning and heat pump equipment. Although AHAM PAC-1-2015 
references a number of sections in ANSI/ASHRAE Standards 37-2009, the 
test procedure proposed in this SNOPR additionally references one 
section in ANSI/ASHRAE Standards 37-2009 that addresses test duration. 
ANSI/ASHRAE Standards 37-2009 is readily available on ANSI's Web site 
at http://webstore.

[[Page 74034]]

ansi.org/RecordDetail.aspx?sku=ANSI%2FASHRAE+Standard+37-2009.

V. Public Participation

    DOE will accept comments, data, and information regarding this 
proposed rule no later than the date provided in the DATES section at 
the beginning of this proposed rule. Interested parties may submit 
comments using any of the methods described in the ADDRESSES section at 
the beginning of this notice.
    Submitting comments via <a href="https://www.regulations.gov">www.regulations.gov</a>. The <a href="https://regulations.gov">regulations.gov</a> 
Web page will require you to provide your name and contact information. 
Your contact information will be viewable to DOE Building Technologies 
staff only. Your contact information will not be publicly viewable 
except for your first and last names, organization name (if any), and 
submitter representative name (if any). If your comment is not 
processed properly because of technical difficulties, DOE will use this 
information to contact you. If DOE cannot read your comment due to 
technical difficulties and cannot contact you for clarification, DOE 
may not be able to consider your comment.
    However, your contact information will be publicly viewable if you 
include it in the comment or in any documents attached to your comment. 
Any information that you do not want to be publicly viewable should not 
be included in your comment, nor in any document attached to your 
comment. Persons viewing comments will see only first and last names, 
organization names, correspondence containing comments, and any 
documents submitted with the comments.
    Do not submit to <a href="https://www.regulations.gov">www.regulations.gov</a> information for which 
disclosure is restricted by statute, such as trade secrets and 
commercial or financial information (hereinafter referred to as 
Confidential Business Information (CBI)). Comments submitted through 
<a href="https://regulations.gov">regulations.gov</a> cannot be claimed as CBI. Comments received through the 
Web site will waive any CBI claims for the information submitted. For 
information on submitting CBI, see the Confidential Business 
Information section.
    DOE processes submissions made through <a href="https://regulations.gov">regulations.gov</a> before 
posting. Normally, comments will be posted within a few days of being 
submitted. However, if large volumes of comments are being processed 
simultaneously, your comment may not be viewable for up to several 
weeks. Please keep the comment tracking number that <a href="https://regulations.gov">regulations.gov</a> 
provides after you have successfully uploaded your comment.
    Submitting comments via email, hand delivery, or mail. Comments and 
documents submitted via email, hand delivery, or mail also will be 
posted to <a href="https://regulations.gov">regulations.gov</a>. If you do not want your personal contact 
information to be publicly viewable, do not include it in your comment 
or any accompanying documents. Instead, provide your contact 
information on a cover letter. Include your first and last names, email 
address, telephone number, and optional mailing address. The cover 
letter will not be publicly viewable as long as it does not include any 
comments.
    Include contact information each time you submit comments, data, 
documents, and other information to DOE. If you submit via mail or hand 
delivery, please provide all items on a CD, if feasible. It is not 
necessary to submit printed copies. No facsimiles (faxes) will be 
accepted.
    Comments, data, and other information submitted to DOE 
electronically should be provided in PDF (preferred), Microsoft Word or 
Excel, WordPerfect, or text (ASCII) file format. Provide documents that 
are not secured, written in English and free of any defects or viruses. 
Documents should not contain special characters or any form of 
encryption and, if possible, they should carry the electronic signature 
of the author.
    Campaign form letters. Please submit campaign form letters by the 
originating organization in batches of between 50 to 500 form letters 
per PDF or as one form letter with a list of supporters' names compiled 
into one or more PDFs. This reduces comment processing and posting 
time.
    Confidential Business Information. According to 10 CFR 1004.11, any 
person submitting information that he or she believes to be 
confidential and exempt by law from public disclosure should submit via 
email, postal mail, or hand delivery two well-marked copies: one copy 
of the document marked confidential including all the information 
believed to be confidential, and one copy of the document marked non-
confidential with the information believed to be confidential deleted. 
Submit these documents via email or on a CD, if feasible. DOE will make 
its own determination about the confidential status of the information 
and treat it according to its determination.
    Factors of interest to DOE when evaluating requests to treat 
submitted information as confidential include: (1) A description of the 
items; (2) whether and why such items are customarily treated as 
confidential within the industry; (3) whether the information is 
generally known by or available from other sources; (4) whether the 
information has previously been made available to others without 
obligation concerning its confidentiality; (5) an explanation of the 
competitive injury to the submitting person which would result from 
public disclosure; (6) when such information might lose its 
confidential character due to the passage of time; and (7) why 
disclosure of the information would be contrary to the public interest.
    It is DOE's policy that all comments may be included in the public 
docket, without change and as received, including any personal 
information provided in the comments (except information deemed to be 
exempt from public disclosure).

VI. Approval of the Office of the Secretary

    The Secretary of Energy has approved publication of this 
supplemental notice of proposed rulemaking.

List of Subjects

10 CFR Part 429

    Confidential business information, Energy conservation, Household 
appliances, Imports, Incorporation by reference, Reporting and 
recordkeeping requirements.

10 CFR Part 430

    Administrative practice and procedure, Confidential business 
information, Energy conservation, Household appliances, Imports, 
Incorporation by reference, Intergovernmental relations, Small 
businesses.

    Issued in Washington, DC, on November 17, 2015.
Kathleen B. Hogan,
Deputy Assistant Secretary for Energy Efficiency, Energy Efficiency and 
Renewable Energy.

    For the reasons stated in the preamble, DOE proposes to amend parts 
429 and 430 of Chapter II of Title 10, Code of Federal Regulations as 
set forth below:

PART 429--CERTIFICATION, COMPLIANCE, AND ENFORCEMENT FOR CONSUMER 
PRODUCTS AND COMMERCIAL AND INDUSTRIAL EQUIPMENT

0
1. The authority citation for part 429 continues to read as follows:

    Authority: 42 U.S.C. 6291-6317.

0
2. Section 429.4 is amended by adding paragraph (b)(3) to read as 
follows:

[[Page 74035]]

Sec.  429.4  Materials incorporated by reference.

* * * * *
    (b) * * *
    (3) AHAM PAC-1-2015, Portable Air Conditioners, 2015, IBR approved 
for Sec.  429.62.
* * * * *
0
3. Add Sec.  429.62 to read as follows:


Sec.  429.62  Portable air conditioners.

    (a) Sampling plan for selection of units for testing. (1) The 
requirements of Sec.  429.11 are applicable to portable air 
conditioners; and
    (2) For each basic model of portable air conditioner, a sample of 
sufficient size shall be randomly selected and tested to ensure that--
    (i) Any represented value of energy consumption or other measure of 
energy consumption of a basic model for which consumers would favor 
lower values shall be greater than or equal to the higher of:
    (A) The mean of the sample:
    [GRAPHIC] [TIFF OMITTED] TP27NO15.006
    

Where:

x is the sample mean;
x<INF>i</INF> is the i<SUP>th</SUP> sample; and
n is the number of units in the test sample.

Or,

    (B) The upper 95 percent confidence limit (UCL) of the true mean 
divided by 1.10:
[GRAPHIC] [TIFF OMITTED] TP27NO15.007


Where:

x is the sample mean;
s is the sample standard deviation;
n is the number of units in the test sample; and
t<INF>0.95</INF> is the t statistic for a 95% one-tailed confidence 
interval with n-1 degrees of freedom.

And,

    (ii) Any represented value of the combined energy efficiency ratio 
or other measure of energy consumption of a basic model for which 
consumers would favor higher values shall be less than or equal to the 
lower of:
    (A) The mean of the sample:
    [GRAPHIC] [TIFF OMITTED] TP27NO15.008
    

Where:

x is the sample mean;
x<INF>i</INF> is the i<SUP>th</SUP> sample; and
n is the number of units in the test sample.

Or,

    (B) The lower 95 percent confidence limit (LCL) of the true mean 
divided by 0.90:
[GRAPHIC] [TIFF OMITTED] TP27NO15.009


Where:

x is the sample mean;
s is the sample standard deviation;
n is the number of units in the test sample; and
t<INF>0.95</INF> is the t statistic for a 95% one-tailed confidence 
interval with n-1 degrees of freedom.

And,

    (3) The value of seasonally adjusted cooling capacity of a basic 
model shall be the mean of the seasonally adjusted cooling capacities 
for each tested unit of the basic model. Round the mean capacity value 
to the nearest 50, 100, 200, or 500 Btu/h, depending on the value being 
rounded, in accordance with Table 1 of AHAM PAC-1-2015, (incorporated 
by reference, see Sec.  429.4), ``Multiples for reporting Dual Duct 
Cooling Capacity, Single Duct Cooling Capacity, Spot Cooling Capacity, 
Water Cooled Condenser Capacity and Power Input Ratings.''
    (4) Round the value of combined energy efficiency ratio of a basic 
model to the nearest 0.1 Btu/Wh.
    (b) Certification reports. [Reserved]

PART 430--ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS

0
4. The authority citation for part 430 continues to read as follows:

    Authority:  42 U.S.C. 6291-6309; 28 U.S.C. 2461 note.

0
5. Section 430.2 is amended by adding the definition of ``portable air 
conditioner'' in alphabetical order to read as follows:


Sec.  430.2  Definitions.

* * * * *
    Portable air conditioner means an encased assembly, other than a 
``packaged terminal air conditioner,'' ``room air conditioner,'' or 
``dehumidifier,'' designed as a portable unit for delivering cooled, 
conditioned air to an enclosed space, that is powered by single-phase 
electric current, and which may rest on the floor or other elevated 
surface. It includes a source of refrigeration and may include 
additional means for air circulation and heating.
* * * * *
0
6. Section 430.3 is amended by:
0
a. Revising paragraph (g)(4);
0
b. Redesignating paragraph (i)(8) as (i)(9), and adding a new paragraph 
(i)(8); and
0
c. Revising paragraph (p)(4).
    The revisions read as follows:


Sec.  430.3  Materials incorporated by reference.

* * * * *
    (g) * * *
    (4) ANSI/ASHRAE Standard 37-2009, (``ASHRAE 37-2009''), Methods of 
Testing for Rating Electrically Driven Unitary Air-Conditioning and 
Heat Pump Equipment, ANSI approved June 25, 2009, IBR approved for 
appendix AA and CC to subpart B.
* * * * *
    (i) * * *
    (8) AHAM PAC-1-2015, Portable Air Conditioners, 2015, IBR approved 
for appendix CC to subpart B.
* * * * *
    (p) * * *
    (4) IEC 62301 (``IEC 62301''), Household electrical appliances--
Measurement of standby power, (Edition 2.0, 2011-01), IBR approved for 
appendices C1, D1, D2, G, H, I, J2, N, O, P, X, X1, Z and CC to subpart 
B.
* * * * *
0
7. Section 430.23 is amended by adding paragraph (dd) to read as 
follows:


Sec.  430.23  Test procedures for the measurement of energy and water 
consumption.

* * * * *
    (dd) Portable air conditioners. (1) For portable air conditioners, 
measure the seasonally adjusted cooling capacity, expressed in British 
thermal units per hour (Btu/h), and the combined energy efficiency 
ratio, expressed in British thermal units per watt-hour (Btu/Wh) in 
accordance with section 5 of appendix CC of this subpart.
    (2) Determine the estimated annual operating cost for portable air 
conditioners, expressed in dollars per year, by multiplying the 
following two factors:
    (i) For dual-duct portable air conditioners, the sum of 
AEC<INF>95</INF> multiplied by 0.2, AEC<INF>83</INF> multiplied by 0.8, 
and AEC<INF>T</INF> as measured in accordance with section 5.3 of 
appendix CC of this subpart; or for single-duct portable air 
conditioners, the sum of AEC<INF>SD</INF> and AEC<INF>T</INF> as 
measured in accordance with section 5.3 of appendix CC of this subpart; 
and
    (ii) A representative average unit cost of electrical energy in 
dollars per kilowatt-hour as provided by the Secretary.
    (iii) Round the resulting product to the nearest dollar per year.
0
7. Add appendix CC to subpart B of part 430 to read as follows:

[[Page 74036]]

Appendix CC to Subpart B of Part 430--Uniform Test Method for Measuring 
the Energy Consumption of Portable Air Conditioners

1. Scope

    This appendix covers the test requirements used to measure the 
energy performance of single-duct and dual-duct portable air 
conditioners. It does not contain testing provisions for measuring 
the energy performance of spot coolers at this time.

2. Definitions

    2.1 AHAM PAC-1 means the test standard published by the 
Association of Home Appliance Manufacturers, titled ``Portable Air 
Conditioners,'' AHAM PAC-1-2015 (incorporated by reference; see 
Sec.  430.3).
    2.2 Combined energy efficiency ratio is the energy efficiency of 
a portable air conditioner as measured in accordance with this test 
procedure in Btu per watt-hours (Btu/Wh) and determined in section 
5.4.
    2.3 Cooling mode means a mode in which a portable air 
conditioner has activated the main cooling function according to the 
thermostat or temperature sensor signal, including activating the 
refrigeration system or the fan or blower without activation of the 
refrigeration system.
    2.4 Dual-duct portable air conditioner means a portable air 
conditioner that draws some or all of the condenser inlet air from 
outside the conditioned space through a duct, and may draw 
additional condenser inlet air from the conditioned space. The 
condenser outlet air is discharged outside the conditioned space by 
means of a separate duct. 2.6 IEC 62301 means the test standard 
published by the International Electrotechnical Commission, titled 
``Household electrical appliances--Measurement of standby power,'' 
Publication 62301 (Edition 2.0 2011-01) (incorporated by reference; 
see Sec.  430.3).
    2.5 Inactive mode means a standby mode that facilitates the 
activation of an active mode or off-cycle mode by remote switch 
(including remote control), internal sensor, or timer, or that 
provides continuous status display.
    2.6 Off-cycle mode means a mode in which a portable air 
conditioner:
    (1) Has cycled off its main cooling or heating function by 
thermostat or temperature sensor signal;
    (2) May or may not operate its fan or blower; and
    (3) Will reactivate the main function according to the 
thermostat or temperature sensor signal.
    2.7 Off mode means a mode in which a portable air conditioner is 
connected to a mains power source and is not providing any active 
mode, off-cycle mode, or standby mode function, and where the mode 
may persist for an indefinite time. An indicator that only shows the 
user that the portable air conditioner is in the off position is 
included within the classification of an off mode.
    2.8 Seasonally adjusted cooling capacity means a measure of the 
cooling, measured in Btu/h, provided to the indoor conditioned 
space, measured under the specified ambient conditions.
    2.9 Single-duct portable air conditioner means a portable air 
conditioner that draws all of the condenser inlet air from the 
conditioned space without the means of a duct, and discharges the 
condenser outlet air outside the conditioned space through a single 
duct.
    2.10 Spot cooler means a portable air conditioner that draws 
condenser inlet air from and discharges condenser outlet air to the 
conditioned space, and draws evaporator inlet air from and 
discharges evaporator outlet air to a localized zone within the 
conditioned space.
    2.11 Standby mode means any mode where a portable air 
conditioner is connected to a mains power source and offers one or 
more of the following user-oriented or protective functions which 
may persist for an indefinite time:
    (1) To facilitate the activation of other modes (including 
activation or deactivation of cooling mode) by remote switch 
(including remote control), internal sensor, or timer; or
    (2) Continuous functions, including information or status 
displays (including clocks) or sensor-based functions. A timer is a 
continuous clock function (which may or may not be associated with a 
display) that provides regular scheduled tasks (e.g., switching) and 
that operates on a continuous basis.

3. Test Apparatus and General Instructions

    3.1 Active mode.
    3.1.1 Test conduct. The test apparatus and instructions for 
testing portable air conditioners in cooling mode and off-cycle mode 
shall conform to the requirements specified in Section 4, 
``Definitions'' and Section 7, ``Tests,'' of AHAM PAC-1-2015 
(incorporated by reference; see Sec.  430.3), except as otherwise 
specified in this appendix. Where applicable, measure duct heat 
transfer and infiltration air heat transfer according to section 
4.1.1.1 and section 4.1.1.2 of this appendix, respectively.
    3.1.1.1 Duct setup. Use ducting components provided by the 
manufacturer, including, where provided by the manufacturer, ducts, 
connectors for attaching the duct(s) to the test unit, and window 
mounting fixtures. Do not apply additional sealing or insulation.
    3.1.1.2 Single-duct evaporator inlet test conditions. When 
testing single-duct portable air conditioners, maintain the 
evaporator inlet dry-bulb temperature within a range of 
1.0[emsp14][deg]F with an average difference within 
0.3[emsp14][deg]F.
    3.1.1.3 Condensate Removal. Setup the test unit in accordance 
with manufacturer instructions. If the unit has an auto-evaporative 
feature, keep any provided drain plug installed as shipped and do 
not provide other means of condensate removal. If the internal 
condensate collection bucket fills during the test, halt the test, 
remove the drain plug, install a gravity drain line, and start the 
test from the beginning. If no auto-evaporative feature is 
available, remove the drain plug and install a gravity drain line. 
If no auto-evaporative feature or gravity drain is available and a 
condensate pump is included, or if the manufacturer specifies the 
use of an included condensate pump during cooling mode operation, 
then test the portable air conditioner with the condensate pump 
enabled. For units tested with a condensate pump, apply the 
provisions in Section 7.1.2 of AHAM PAC-1-2015 (incorporated by 
reference; see Sec.  430.3) if the pump cycles on and off.
    3.1.1.4 Unit Placement. There shall be no less than 3 feet 
between any test chamber wall surface and any surface on the 
portable air conditioner, except the surface or surfaces of the 
portable air conditioner that include a duct attachment. The 
distance between the test chamber wall and a surface with one or 
more duct attachments is prescribed by the test setup requirements 
in Section 7.3.7 of AHAM PAC-1-2015 (incorporated by reference; see 
Sec.  430.3).
    3.1.1.5 Electrical supply. Maintain the input standard voltage 
at 115 V <plus-minus>1 percent. Test at the rated frequency, 
maintained within <plus-minus>1 percent.
    3.1.1.6 Duct temperature measurements. Measure the surface 
temperatures of each duct using four equally spaced thermocouples 
per duct, adhered to the outer surface of the entire length of the 
duct. Temperature measurements must have an error no greater than 
<plus-minus>0.5[emsp14][deg]F over the range being measured.
    3.1.2 Control settings. Set the controls to the lowest available 
temperature setpoint for cooling mode. If the portable air 
conditioner has a user-adjustable fan speed, select the maximum fan 
speed setting. If the portable air conditioner has an automatic 
louver oscillation feature, disable that feature throughout testing. 
If the louver oscillation feature is included but there is no option 
to disable it, testing shall proceed with the louver oscillation 
enabled. If the portable air conditioner has adjustable louvers, 
position the louvers parallel with the airflow to maximize air flow 
and minimize static pressure loss.
    3.1.3 Measurement resolution and rounding. Record measurements 
at the resolution of the test instrumentation. Round the seasonally 
adjusted cooling capacity value in accordance with Table 1 of AHAM 
PAC-1-2015 (incorporated by reference; see Sec.  430.3). Round CEER 
as calculated in section 5 of this appendix, to the nearest 0.1 Btu/
Wh.
    3.2 Standby mode and off mode.
    3.2.1 Installation requirements. For the standby mode and off 
mode testing, install the portable air conditioner in accordance 
with Section 5, Paragraph 5.2 of IEC 62301 (incorporated by 
reference; see Sec.  430.3), disregarding the provisions regarding 
batteries and the determination, classification, and testing of 
relevant modes.
    3.2.2 Electrical energy supply.
    3.2.2.1 Electrical supply. For the standby mode and off mode 
testing, maintain the input standard voltage at 115 V <plus-minus>1 
percent. Maintain the electrical supply at the rated frequency 
<plus-minus>1 percent.
    3.2.2.2 Supply voltage waveform. For the standby mode and off 
mode testing, maintain the electrical supply voltage waveform 
indicated in Section 4, Paragraph 4.3.2 of IEC 62301 (incorporated 
by reference; see Sec.  430.3).
    3.2.3 Standby mode and off mode wattmeter. The wattmeter used to 
measure

[[Page 74037]]

standby mode and off mode power consumption must meet the 
requirements specified in Section 4, Paragraph 4.4 of IEC 62301 
(incorporated by reference; see Sec.  430.3).
    3.2.4 Standby mode and off mode ambient temperature. For standby 
mode and off mode testing, maintain room ambient air temperature 
conditions as specified in Section 4, Paragraph 4.2 of IEC 62301 
(incorporated by reference; see Sec.  430.3).

4. Test Measurement

    4.1 Cooling mode. Measure the indoor room cooling capacity and 
overall power input in cooling mode in accordance with Section 7.1.b 
and 7.1.c of AHAM PAC-1-2015 (incorporated by reference; see Sec.  
430.3), respectively. The test duration shall be determined in 
accordance with Section 8.7 of ASHRAE 37-2009 (incorporated by 
reference; Sec.  430.3). Substitute the test conditions in Table 3 
of AHAM PAC-1-2015 with the test conditions for single-duct and 
dual-duct portable air conditioners presented in Table 1 of this 
appendix. For single-duct units, measure the indoor room cooling 
capacity, Capacity<INF>SD</INF>, and overall power input in cooling 
mode, P<INF>SD</INF>, in accordance with the ambient conditions for 
test configuration 5, presented in Table 1 of this appendix. For 
dual-duct units, measure the indoor room cooling capacity and 
overall power input in accordance with ambient conditions for test 
configuration 3, condition A (Capacity<INF>95</INF>, 
P<INF>95</INF>), and a second time in accordance with the ambient 
conditions for test configuration 3, condition B 
(Capacity<INF>83</INF>, P<INF>83</INF>), presented in Table 1 of 
this appendix.

                             Table 1--Evaporator and Condenser Inlet Test Conditions
----------------------------------------------------------------------------------------------------------------
                                                   Evaporator inlet air, [deg]F     Condenser inlet air, [deg]F
                                                             ([deg]C)                        ([deg]C)
               Test configuration                ---------------------------------------------------------------
                                                     Dry bulb        Wet bulb        Dry bulb        Wet bulb
----------------------------------------------------------------------------------------------------------------
3 (Condition A).................................       80 (26.7)       67 (19.4)       95 (35.0)       75 (23.9)
3 (Condition B).................................       80 (26.7)       67 (19.4)       83 (28.3)     67.5 (19.7)
5...............................................       80 (26.7)       67 (19.4)       80 (26.7)       67 (19.4)
----------------------------------------------------------------------------------------------------------------

    4.1.1. Duct Heat Transfer. Measure the surface temperature of 
the condenser exhaust duct and condenser inlet duct, where 
applicable, throughout the cooling mode test. Calculate the average 
temperature at each individual location, and then calculate the 
average surface temperature of each duct by averaging the four 
average temperature measurements taken on that duct. Calculate the 
surface area (A<INF>duct_j</INF>) of each duct according to the 
following:

    A<INF>duct_j</INF> = [pi] x d<INF>j</INF> x L<INF>j</INF>

Where:

d<INF>j</INF> = the outer diameter of duct ``j''.
L<INF>j</INF> = the extended length of duct ``j'' while under test.
j represents the condenser exhaust duct and, for dual-duct units, 
condenser inlet duct.

    Calculate the total heat transferred from the surface of the 
duct(s) to the indoor conditioned space while operating in cooling 
mode for the outdoor test conditions in Table 1 of this appendix, as 
follows. For single-duct portable air conditioners:

Q<INF>duct_SD =</INF> hxA<INF>duct_j</INF>x(T<INF>duct_SD_j</INF>-
T<INF>ei</INF>)
    For dual-duct portable air conditioners:

    Q<INF>duct_95</INF>=[sum]j{hxA<INF>duct_j</INF>x(T<INF>duct_95_j</INF>
-T<INF>ei</INF>){time} 
    Q<INF>duct_83</INF>=[sum]j{hxA<INF>duct_j</INF>x(T<INF>duct_83_j</INF>
-T<INF>ei</INF>){time} 

Where:
Q<INF>duct_SD</INF> = for single-duct portable air conditioners, the 
total heat transferred from the duct to the indoor conditioned space 
in cooling mode when tested according to the test conditions in 
Table 1 of this appendix, in Btu/h.
Q<INF>duct_95</INF> and Q<INF>duct_83</INF> = for dual-duct portable 
air conditioners, the total heat transferred from the ducts to the 
indoor conditioned space in cooling mode when tested according to 
the 95[emsp14][deg]F dry-bulb and 83[emsp14][deg]F dry-bulb outdoor 
test conditions in Table 1 of this appendix, in Btu/h.
h = convection coefficient, 4 Btu/h per square foot per [deg]F.
A<INF>duct_j</INF> = surface area of duct ``j'', in square feet.
T<INF>duct_SD_j</INF> = average surface temperature for the 
condenser exhaust duct of single-duct portable air conditioners, as 
measured during testing according to the test condition in Table 1 
of this appendix, in [deg]F.
T<INF>duct_95_j</INF> and T<INF>duct_83_j</INF> = average surface 
temperature for duct ``j'' of dual-duct portable air conditioners, 
as measured during testing according to the two outdoor test 
conditions in Table 1 of this appendix, in [deg]F.
j represents the condenser exhaust duct and, for dual-duct units, 
condenser inlet duct.
T<INF>ei</INF> = average evaporator inlet air dry-bulb temperature, 
in [deg]F.

    4.1.2 Infiltration Air Heat Transfer. Measure the heat 
contribution from infiltration air for single-duct portable air 
conditioners and dual-duct portable air conditioners that draw at 
least part of the condenser air from the conditioned space. 
Calculate the heat contribution from infiltration air for single-
duct and dual-duct portable air conditioners for both cooling mode 
outdoor test conditions, as described in this section. The dry air 
mass flow rate of infiltration air shall be calculated according to 
the following equations. For single-duct portable air conditioners:
[GRAPHIC] [TIFF OMITTED] TP27NO15.010

    For dual-duct portable air conditioners:

    [GRAPHIC] [TIFF OMITTED] TP27NO15.011
    

[[Page 74038]]


Where:
m<INF>SD</INF> = dry air mass flow rate of infiltration air for 
single-duct portable air conditioners, in pounds per minute (lb/m).
    m<INF>95</INF> and m<INF>83</INF> = dry air mass flow rate of 
infiltration air for dual-duct portable air conditioners, as 
calculated based on testing according to the test conditions in 
Table 1 of this appendix, in lb/m.
    V<INF>co_SD</INF>, V<INF>co_95</INF>, and V<INF>co_83</INF> = 
average volumetric flow rate of the condenser outlet air during 
cooling mode testing for single-duct portable air conditioners; and 
at the 95 [deg]F and 83 [deg]F dry-bulb outdoor conditions for dual-
duct portable air conditioners, respectively, in cubic feet per 
minute (cfm).
    V<INF>ci_95</INF>, and V<INF>ci_83</INF> = average volumetric 
flow rate of the condenser inlet air during cooling mode testing at 
the 95 [deg]F and 83 [deg]F dry-bulb outdoor conditions for dual-
duct portable air conditioners, respectively, in cfm.
    [rho]<INF>co_SD</INF>, [rho]<INF>co_95</INF>, and 
[rho]<INF>co_83</INF> = average density of the condenser outlet air 
during cooling mode testing for single-duct portable air 
conditioners, and at the 95 [deg]F and 83 [deg]F dry-bulb outdoor 
conditions for dual-duct portable air conditioners, respectively, in 
pounds mass per cubic foot (lb<INF>m</INF>/ft\3\).
    [rho]<INF>ci_95</INF>, and [rho]<INF>ci_83</INF> = average 
density of the condenser inlet air during cooling mode testing at 
the 95 [deg]F and 83 [deg]F dry-bulb outdoor conditions for dual-
duct portable air conditioners, respectively, in lb<INF>m</INF>/
ft\3\.
    [omega][hairsp]<INF>co_SD</INF>, 
[omega][hairsp]<INF>co_95</INF>, and [omega][hairsp]<INF>co_83</INF> 
= average humidity ratio of condenser outlet air during cooling mode 
testing for single-duct portable air conditioners, and at the 95 
[deg]F and 83 [deg]F dry-bulb outdoor conditions for dual-duct 
portable air conditioners, respectively, in pounds mass of water 
vapor per pounds mass of dry air (lb<INF>w</INF>/lb<INF>da</INF>).
    [omega][hairsp]<INF>ci_95</INF>, and 
[omega][hairsp]<INF>ci_83</INF> = average humidity ratio of 
condenser inlet air during cooling mode testing at the 95 [deg]F and 
83 [deg]F dry-bulb outdoor conditions for dual-duct portable air 
conditioners, respectively, in lb<INF>w</INF>/lb<INF>da</INF>.
    For single-duct and dual-duct portable air conditioners, 
calculate the sensible component of infiltration air heat 
contribution according to the following:

Qs<INF>_95</INF> = m x 60
x [(cp\da x (Tia<INF>_95</INF>-Tindoor)) + cp\wv x 
([omega][hairsp]ia<INF>_95</INF> x Tia<INF>_95</INF>-
[omega][hairsp]indoor x Tindoor)]
Qs<INF>_83</INF> = m x 60
x [(cp\da x (Tia<INF>_83</INF>-Tindoor)) + cp\wv x 
([omega][hairsp]ia<INF>_83</INF> x Tia<INF>_83</INF>-
[omega][hairsp]indoor x Tindoor)]

Where:

Q<INF>s_95</INF> and Q<INF>s_83</INF> = sensible heat added to the 
room by infiltration air, calculated at the 95 [deg]F and 83 [deg]F 
dry-bulb outdoor conditions in Table 1 of this appendix, in Btu/h.
m = dry air mass flow rate of infiltration air, m<INF>SD</INF> or 
m<INF>95</INF> when calculating Q<INF>s_95</INF> and m<INF>SD</INF> 
or m<INF>83</INF> when calculating Q<INF>s_83</INF>, in lb/m.
c<INF>p_da</INF> = specific heat of dry air, 0.24 Btu/
lb<INF>m</INF>- [deg]F.
c<INF>p_wv</INF> = specific heat of water vapor, 0.444 Btu/
lb<INF>m</INF>- [deg]F.
T<INF>indoor</INF> = indoor chamber dry-bulb temperature, 80 [deg]F.
T<INF>ia_95</INF> and T<INF>ia_83</INF> = infiltration air dry-bulb 
temperatures for the two test conditions in Table 1 of this 
appendix, 95 [deg]F and 83 [deg]F, respectively.
[omega][hairsp]<INF>ia_95</INF> and [omega][hairsp]<INF>ia_83</INF> 
= humidity ratios of the 95 [deg]F and 83 [deg]F dry-bulb 
infiltration air, 0.0141 and 0.01086 lb<INF>w</INF>/lb<INF>da</INF>, 
respectively.
[omega][hairsp]<INF>indoor</INF> = humidity ratio of the indoor 
chamber air, 0.0112 lb<INF>w</INF>/lb<INF>da</INF>.
    60 = conversion factor from minutes to hours.

    Calculate the latent heat contribution of the infiltration air 
according to the following:
Q[hairsp]l<INF>_95</INF> = m x 60 x Hfg x 
([omega][hairsp]ia<INF>_95</INF>-[omega][hairsp]indoor)
Q[hairsp]l<INF>_83</INF> = m x 60 x Hfg x 
([omega][hairsp]ia<INF>_83</INF>-[omega][hairsp]indoor)

Where:

Q[hairsp]<INF>l_95</INF> and Q[hairsp]<INF>l_83</INF> = latent heat 
added to the room by infiltration air, calculated at the 95 [deg]F 
and 83 [deg]F dry-bulb outdoor conditions in Table 1 of this 
appendix, in Btu/h.
m = mass flow rate of infiltration air, m<INF>SD</INF> or 
m<INF>95</INF> when calculating Q<INF>l,95</INF> and m<INF>SD</INF> 
or m<INF>83</INF> when calculating Q<INF>l_83</INF>, in lb/m.
H<INF>fg</INF> = latent heat of vaporization for water vapor, 1061 
Btu/lb<INF>m</INF>.
[omega][hairsp]<INF>ia_95</INF> and [omega][hairsp]<INF>ia_83</INF> 
= humidity ratios of the 95 [deg]F and 83 [deg]F dry-bulb 
infiltration air, 0.0141 and 0.01086 lb<INF>w</INF>/lb<INF>da</INF>, 
respectively.
[omega][hairsp]<INF>indoor</INF> = humidity ratio of the indoor 
chamber air, 0.0112 lb<INF>w</INF>/lb<INF>da</INF>.
60 = conversion factor from minutes to hours.

    The total heat contribution of the infiltration air is the sum of 
the sensible and latent heat:
Q[hairsp]infiltration<INF>_95</INF> = Q[hairsp]s<INF>_95</INF> + 
Q[hairsp]l<INF>_95</INF>
Q[hairsp]infiltration<INF>_83</INF> = Q[hairsp]s<INF>_83</INF> + 
Q[hairsp]l<INF>_83</INF>

Where:

Q[hairsp]<INF>infiltration_95</INF> and 
Q[hairsp]<INF>infiltration_83</INF> = total infiltration air heats in 
cooling mode, calculated at the 95 [deg]F and 83 [deg]F dry-bulb 
outdoor conditions in Table 1 of this appendix, in Btu/h.
Q[hairsp]<INF>s_95</INF> and Q[hairsp]<INF>s_83 =</INF> sensible heat 
added to the room by infiltration air, calculated at the 95 [deg]F and 
83 [deg]F dry-bulb outdoor conditions in Table 1 of this appendix, in 
Btu/h.
Q[hairsp]<INF>l_95</INF> and Q[hairsp]<INF>l_83</INF> = latent heat 
added to the room by infiltration air, calculated at the 95 [deg]F and 
83 [deg]F dry-bulb outdoor conditions in Table 1 of this appendix, in 
Btu/h.

    4.2 Off-cycle mode. Establish the test conditions specified in 
section 3.1.1 of this appendix for off-cycle mode, except that the duct 
measurements in section 3.1.1.6 shall not be used and the wattmeter 
specified in section 3.2.3 of this appendix shall be used. Begin the 
off-cycle mode test period 5 minutes following the cooling mode test 
period. Adjust the setpoint higher than the ambient temperature to 
ensure the product will not enter cooling mode and begin the test 5 
minutes after the compressor cycles off due to the change in setpoint. 
The off-cycle mode test period shall be 2 hours in duration, during 
which the power consumption is recorded at the same intervals as 
recorded for cooling mode testing. Measure and record the average off-
cycle mode power of the portable air conditioner, P<INF>oc</INF>, in 
watts.
    4.3 Standby mode and off mode. Establish the testing conditions set 
forth in section 3.2 of this appendix, ensuring that the portable air 
conditioner does not enter any active modes during the test. For 
portable air conditioners that take some time to enter a stable state 
from a higher power state as discussed in Section 5, Paragraph 5.1, 
Note 1 of IEC 62301, (incorporated by reference; see Sec.  430.3), 
allow sufficient time for the portable air conditioner to reach the 
lowest power state before proceeding with the test measurement. Follow 
the test procedure specified in Section 5, Paragraph 5.3.2 of IEC 62301 
for testing in each possible mode as described in sections 4.3.1 and 
4.3.2 of this appendix.
    4.3.1 If the portable air conditioner has an inactive mode, as 
defined in section 2.5 of this appendix, but not an off mode, as 
defined in section 2.7 of this appendix, measure and record the average 
inactive mode power of the portable air conditioner, P<INF>ia</INF>, in 
watts.
    4.3.2 If the portable air conditioner has an off mode, as defined 
in section 2.7 of this appendix, measure and record the average off 
mode power of the portable air conditioner, P<INF>om</INF>, in watts.

5. Calculation of Derived Results From Test Measurements

    5.1 Adjusted Cooling Capacity. Calculate the adjusted cooling 
capacities for portable air conditioners, ACC<INF>95</INF> and 
ACC<INF>83,</INF> expressed in Btu/h, according to the following 
equations. For single-duct portable air conditioners:

ACC<INF>95</INF> = CapacitySD - Q[hairsp]duct\SD-
Q[hairsp]infiltration<INF>_95</INF>
ACC<INF>83</INF> = CapacitySD - Q[hairsp]duct\SD-
Q[hairsp]infiltration<INF>_83</INF>

    For dual-duct portable air conditioners:

ACC<INF>95</INF> = Capacity<INF>95</INF> - Q[hairsp]duct\<INF>95</INF>-
Q[hairsp]infiltration<INF>_95</INF>
ACC<INF>83</INF> = Capacity<INF>83</INF> - Q[hairsp]duct\<INF>83</INF>-
Q[hairsp]infiltration<INF>_83</INF>

Where:

Capacity<INF>SD</INF>, Capacity<INF>95</INF>, and Capacity<INF>83</INF> 
= cooling capacity measured in section 4.1.1 of this appendix.
Q[hairsp]<INF>duct_SD</INF>, Q[hairsp]<INF>duct_95</INF>, and 
Q[hairsp]<INF>duct_83</INF> = duct heat transfer while operating in 
cooling mode, calculated in section 4.1.1.1 of this appendix.
Q[hairsp]<INF>infiltration_95</INF> and 
Q[hairsp]<INF>infiltration_83</INF> = total infiltration air heat 
transfer in

[[Page 74039]]

cooling mode, calculated in section 4.1.1.2 of this appendix.

    5.2 Seasonally Adjusted Cooling Capacity. Calculate the seasonally 
adjusted cooling capacity for portable air conditioners, SACC, 
expressed in Btu/h, according to the following:
SACC = ACC<INF>95</INF> x 0.2 + ACC<INF>83</INF> x 0.8

Where:

ACC<INF>95</INF> and ACC<INF>83</INF> = adjusted cooling capacity, in 
Btu/h, calculated in section 5.1 of this appendix.
0.2 = weighting factor for ACC<INF>95</INF>.
0.8 = weighting factor for ACC<INF>83</INF>.

    5.3 Annual Energy Consumption. Calculate the annual energy 
consumption in each operating mode, AEC<INF>m</INF>, expressed in 
kilowatt-hours per year (kWh/year). The annual hours of operation in 
each mode are estimated as follows:

------------------------------------------------------------------------
                                                                 Annual
                        Operating mode                         operating
                                                                 hours
------------------------------------------------------------------------
Cooling Mode, Dual-Duct 95 [deg]F \1\........................        750
Cooling Mode, Dual-Duct 83 [deg]F \1\........................        750
Cooling Mode, Single-Duct....................................        750
Off-Cycle....................................................        880
Inactive or Off..............................................      1,355
------------------------------------------------------------------------
\1\ These operating mode hours are for the purposes of calculating
  annual energy consumption under different ambient conditions for dual-
  duct portable air conditioners, and are not a division of the total
  cooling mode operating hours. The total dual-duct cooling mode
  operating hours are 750 hours.

AEC<INF>m</INF> = Pm x tm x k

Where:

AEC<INF>m</INF> = annual energy consumption in each mode, in kWh/year.
P<INF>m</INF> = average power in each mode, in watts.
m represents the operating mode (``95'' and ``83'' cooling mode at the 
95[emsp14][deg]F and 83[emsp14][deg]F dry-bulb outdoor conditions, 
respectively for dual-duct portable air conditioners, ``SD'' cooling 
mode for single-duct portable air conditioners, ``oc'' off-cycle, and 
``ia'' inactive or ``om'' off mode).
t = number of annual operating time in each mode, in hours.
k = 0.001 kWh/Wh conversion factor from watt-hours to kilowatt-hours.

    Total annual energy consumption in all modes except cooling, is 
calculated according to the following:

AECT = [sum]<INF>m</INF>AECm

Where:

AEC<INF>T</INF> = total annual energy consumption attributed to all 
modes except cooling, in kWh/year;
AEC<INF>m</INF> = total annual energy consumption in each mode, in kWh/
year.
m represents the operating modes included in AEC<INF>T</INF> (``oc'' 
off-cycle, and ``im'' inactive or ``om'' off mode).

    5.4 Combined Energy Efficiency Ratio. Using the annual operating 
hours, as outlined in section 5.3 of this appendix, calculate the 
combined energy efficiency ratio, CEER, expressed in Btu/Wh, according 
to the following:
[GRAPHIC] [TIFF OMITTED] TP27NO15.012

Where:

CEER<INF>SD</INF> and CEER<INF>DD</INF> = combined energy efficiency 
ratio for single-duct and dual-duct portable air conditioners, 
respectively, in Btu/Wh.
ACC<INF>95</INF> and ACC<INF>83</INF> = adjusted cooling capacity, 
tested at the 95[emsp14][deg]F and 83[emsp14][deg]F dry-bulb outdoor 
conditions in Table 1 of this appendix, in Btu/h, calculated in section 
5.1 of this appendix.
AEC<INF>SD</INF> = annual energy consumption in cooling mode for 
single-duct portable air conditioners, in kWh/year, calculated in 
section 5.3 of this appendix.
AEC<INF>95</INF> and AEC<INF>83</INF> = annual energy consumption for 
the two cooling mode test conditions in Table 1 of this appendix for 
dual-duct portable air conditioners, in kWh/year, calculated in section 
5.3 of this appendix.
AEC<INF>T</INF> = total annual energy consumption attributed to all 
modes except cooling, in kWh/year, calculated in section 5.3 of this 
appendix.
t = number of cooling mode hours per year, 750.
k = 0.001 kWh/Wh conversion factor for watt-hours to kilowatt-hours.
0.2 = weighting factor for the 95[emsp14][deg]F dry-bulb outdoor 
condition test.
0.8 = weighting factor for the 83[emsp14][deg]F dry-bulb outdoor 
condition test.

[FR Doc. 2015-30057 Filed 11-25-15; 8:45 am]
 BILLING CODE 6450-01-P


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                                                    basis to be determined at the time a request            (2) an additional test condition for                  attendee lists and transcripts,
                                                    is made, for the following reasons:                     cooling mode testing; (3) updated                     comments, and other supporting
                                                       (a) From subsection (c)(3) (Accounting for           infiltration air and capacity calculations            documents/materials, is available for
                                                    Disclosures) because release of the                     to account for the second cooling mode                review at www.regulations.gov. All
                                                    accounting of disclosures could alert the
                                                    subject of an investigation of an actual or
                                                                                                            test condition; (4) removal of the                    documents in the docket are listed in
                                                    potential criminal, civil, or regulatory                measurement of case heat transfer; (5) a              the regulations.gov index. However,
                                                    violation to the existence of that investigation        clarification of test unit placement                  some documents listed in the index,
                                                    and reveal investigative interest on the part           within the test chamber; (6) removal of               such as those containing information
                                                    of DHS as well as the recipient agency.                 the heating mode test procedure; (7) a                that is exempt from public disclosure,
                                                    Disclosure of the accounting would therefore            revision to the CEER calculation to                   may not be publicly available.
                                                    present a serious impediment to law                     reflect the two cooling mode test                        A link to the docket Web page can be
                                                    enforcement efforts and/or efforts to preserve          conditions and removal of heating mode                found at: http://www.regulations.gov/
                                                    national security. Disclosure of the                    testing; and (8) additional technical                 #!docketDetail;D=EERE&ndash;2014&ndash;BT&ndash;TP&ndash;
                                                    accounting would also permit the individual
                                                    who is the subject of a record to impede the
                                                                                                            corrections and clarifications. These                 0014 . This Web page will contain a link
                                                    investigation, to tamper with witnesses or              proposals are to be combined with the                 to the docket for this notice on the
                                                    evidence, and to avoid detection or                     initial NOPR proposals and would be                   www.regulations.gov site. The
                                                    apprehension, which would undermine the                 codified in a newly created appendix                  www.regulations.gov Web page will
                                                    entire investigative process.                           CC to title 10 of the Code of Federal                 contain simple instructions on how to
                                                       (b) From subsection (e)(8) (Notice on                Regulations (CFR), part 430, subpart B.               access all documents, including public
                                                    Individuals) because compliance would                   The test procedures would be used to                  comments, in the docket. See Section V,
                                                    interfere with DHS&rsquo;s ability to obtain, serve,          determine capacities and energy                       &lsquo;&lsquo;Public Participation,&rsquo;&rsquo; for information
                                                    and issue subpoenas, warrants, and other law            efficiency metrics that would be the                  on how to submit comments through
                                                    enforcement mechanisms that may be filed
                                                    under seal and could result in disclosure of
                                                                                                            basis for any future energy conservation              www.regulations.gov.
                                                    investigative techniques, procedures, and               standards for portable ACs.                              For further information on how to
                                                    evidence.                                               DATES: DOE will accept comments, data,                submit a comment, or review other
                                                       (c) From subsection (g)(1) (Civil Remedies)          and information regarding this SNOPR,                 public comments and the docket,
                                                    to the extent that the system is exempt from            submitted no later than December 28,                  contact Ms. Brenda Edwards at (202)
                                                    other specific subsections of the Privacy Act.          2015. See section V, &lsquo;&lsquo;Public                         586&ndash;2945 or by email:
                                                    *      *     *       *      *                           Participation,&rsquo;&rsquo; for details.                         Brenda.Edwards@ee.doe.gov.
                                                    Karen L. Neuman,                                        ADDRESSES: Any comments submitted                     FOR FURTHER INFORMATION CONTACT:
                                                    Chief Privacy Officer, Department of                    must identify the SNOPR for Test                      Mr. Bryan Berringer, U.S. Department of
                                                    Homeland Security.                                      Procedures for Portable Air                              Energy, Office of Energy Efficiency
                                                                                                            Conditioners, and provide docket                         and Renewable Energy, Building
                                                    [FR Doc. 2015&ndash;30304 Filed 11&ndash;25&ndash;15; 8:45 a.m.]
                                                                                                            number EERE&ndash;2014&ndash;BT&ndash;TP&ndash;0014 and/                         Technology Office, EE&ndash;5B, 1000
                                                    BILLING CODE 9110&ndash;04&ndash;P                                                                                           Independence Ave. SW., Washington,
                                                                                                            or regulatory information number (RIN)
                                                                                                            number 1904&ndash;AD22. Comments may be                        DC 20585&ndash;0121. Telephone: 202&ndash;586&ndash;
                                                                                                            submitted using any of the following                     0371. Email: Bryan.Berringer@
                                                    DEPARTMENT OF ENERGY                                    methods:                                                 ee.doe.gov.
                                                                                                              1. Federal eRulemaking Portal:                      Ms. Sarah Butler, U.S. Department of
                                                    10 CFR Parts 429 and 430                                                                                         Energy, Office of the General Counsel,
                                                                                                            www.regulations.gov. Follow the
                                                    [Docket No. EERE&ndash;2014&ndash; BT&ndash;TP&ndash;0014]                      instructions for submitting comments.                    Mailstop GC&ndash;33, 1000 Independence
                                                                                                              2. Email: PortableAC2014TP0014@                        Ave. SW., Washington, DC 20585&ndash;
                                                    RIN 1904&ndash;AD22                                                                                                    0121. Telephone: 202&ndash;586&ndash;1777;
                                                                                                            ee.doe.gov. Include the docket number
                                                                                                            and/or RIN in the subject line of the                    Email: Sarah.Butler@hq.doe.gov.
                                                    Energy Conservation Program: Test
                                                                                                            message.                                              SUPPLEMENTARY INFORMATION: DOE
                                                    Procedures for Portable Air
                                                    Conditioners                                              3. Mail: Ms. Brenda Edwards, U.S.                   intends to incorporate by reference the
                                                                                                            Department of Energy, Building                        following industry standard into 10 CFR
                                                    AGENCY:  Office of Energy Efficiency and                Technologies Program, Mailstop EE&ndash;5B,                 parts 429 and 430: AHAM PAC&ndash;1&ndash;2015,
                                                    Renewable Energy, Department of                         1000 Independence Avenue SW.,                         Portable Air Conditioners. DOE also
                                                    Energy.                                                 Washington, DC 20585&ndash;0121. If                         intends to incorporate by reference the
                                                    ACTION: Supplemental notice of                          possible, please submit all items on a                following industry standard into 10 CFR
                                                    proposed rulemaking.                                    CD. It is not necessary to include                    part 430: ANSI/ASHRAE Standard 37&ndash;
                                                                                                            printed copies.                                       2009, Methods of Testing for Rating
                                                    SUMMARY:   The U.S. Department of                          4. Hand Delivery/Courier: Ms. Brenda               Electrically Driven Unitary Air-
                                                    Energy (DOE) proposes to modify the                     Edwards, U.S. Department of Energy,                   Conditioning and Heat Pump
                                                    test procedure proposals for portable air               Building Technologies Program, 950                    Equipment.
                                                    conditioners (ACs), initially presented                 L&rsquo;Enfant Plaza SW., Room 6094,                           Copies of AHAM PAC&ndash;1&ndash;2015 can be
                                                    in a notice of proposed rulemaking                      Washington, DC 20024. Telephone:                      obtained from the Association of Home
                                                    (NOPR) published on February 25, 2015.                  (202) 586&ndash;2945. If possible, please                   Appliance Manufacturers 1111 19th
                                                    Upon further analysis and review of the                 submit all items on a CD. It is not                   Street NW., Suite 402, Washington, DC
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                                                    public comments received in response                    necessary to include printed copies.                  20036, 202&ndash;872&ndash;5955, or by going to
                                                    to the February 2015 NOPR, DOE                             For detailed instructions on                       http://www.aham.org/ht/d/Product
                                                    proposes in this supplemental notice of                 submitting comments and additional                    Details/sku/PAC12009/from/714/pid/.
                                                    proposed rulemaking (SNOPR) the                         information on the rulemaking process,                   Copies of ANSI/ASHRAE Standard
                                                    following additions and clarifications to               see section V of this document (Public                37&ndash;2009 can be obtained from the
                                                    its proposed portable AC test procedure:                Participation).                                       American National Standards Institute
                                                    (1) Minor revisions to the indoor and                      Docket: The docket, which includes                 25 W. 43rd Street, 4th Floor, New York,
                                                    outdoor cooling mode test conditions;                   Federal Register notices, public meeting              NY 10036, 212&ndash;642&ndash;4980, or by going to


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                                                    http://webstore.ansi.org/RecordDetail.                  provisions that enable the Secretary of               covered product during a representative
                                                    aspx?sku=ANSI%2FASHRAE+Standard                         Energy to classify additional types of                average use cycle or period of use and
                                                    +37&ndash;2009.                                               consumer products as covered products.                shall not be unduly burdensome to
                                                      See section IV.B. for a description of                (42 U.S.C. 6292(a)(20)) For a given                   conduct. (42 U.S.C. 6293(b)(3)) In
                                                    these standards.                                        product to be classified as a covered                 addition, if DOE determines that a test
                                                                                                            product, the Secretary must determine                 procedure should be prescribed or
                                                    Table of Contents
                                                                                                            that:                                                 amended, it must publish proposed test
                                                    I. Authority and Background                                (1) Classifying the product as a                   procedures and offer the public an
                                                       A. General Test Procedure Rulemaking                 covered product is necessary for the                  opportunity to present oral and written
                                                          Process                                           purposes of EPCA; and                                 comments on them. (42 U.S.C.
                                                       B. Test Procedure for Portable Air                      (2) The average annual per-household               6293(b)(2))
                                                          Conditioners
                                                    1. The May 2014 NODA
                                                                                                            energy use by products of each type is
                                                                                                                                                                  B. Test Procedure for Portable Air
                                                    2. The February 2015 NOPR                               likely to exceed 100 kilowatt-hours
                                                                                                                                                                  Conditioners
                                                    II. Synopsis of the Supplemental Notice of              (kWh) per year. (42 U.S.C. 6292(b)(1))
                                                          Proposed Rulemaking                                  To prescribe an energy conservation                   There are currently no DOE test
                                                    III. Discussion                                         standard pursuant to 42 U.S.C. 6295(o)                procedures or energy conservation
                                                       A. Active Mode                                       and (p) for covered products added                    standards for portable ACs. On July 5,
                                                       B. Cooling Mode                                      pursuant to 42 U.S.C. 6292(b)(1), the                 2013, DOE issued a notice of proposed
                                                       1. Test Chamber and Infiltration Air                 Secretary must also determine that:                   determination (NOPD) of coverage
                                                          Conditions                                           (1) The average household energy use               (hereinafter referred to as the &lsquo;&lsquo;July 2013
                                                       a. Test Chamber Conditions                                                                                 NOPD&rsquo;&rsquo;), in which DOE announced that
                                                                                                            of the products has exceeded 150 kWh
                                                       b. Infiltration Air Conditions
                                                       c. Infiltration Air Calculations                     per household for a 12-month period;                  it tentatively determined that portable
                                                       2. Test Duration                                        (2) The aggregate 12-month energy use              ACs meet the criteria under 42 U.S.C.
                                                       3. Seasonally Adjusted Cooling Capacity              of the products has exceeded 4.2                      6292(b)(1) to be classified as a covered
                                                       4. Duct Heat Transfer and Leakage                    terawatt-hours (TWh);                                 product. 78 FR 40403. DOE estimated
                                                       a. Duct Heat Transfer Impacts                           (3) Substantial improvement in energy              that approximately 974,000 portable AC
                                                       b. Convection Coefficient                            efficiency is technologically feasible;               units were shipped in North America in
                                                       c. Duct Surface Area Measurements                    and                                                   2012, and projected that approximately
                                                       5. Case Heat Transfer                                   (4) Application of a labeling rule                 1.74 million units would be shipped in
                                                       6. Test Unit Placement                               under 42 U.S.C. 6294 is unlikely to be                2018, representing nearly 80-percent
                                                       C. Heating Mode                                      sufficient to induce manufacturers to
                                                       D. Combined Energy Efficiency Ratio
                                                                                                                                                                  growth in 6 years.2 Id. at 40404. In
                                                       1. Annual Operating Mode Hours                       produce, and consumers and other                      addition, DOE estimated the average
                                                       2. CEER Calculation                                  persons to purchase, covered products                 per-household portable AC electricity
                                                       E. Compliance with other Energy Policy               of such type (or class) that achieve the              consumption for those homes with
                                                          and Conservation Act Requirements                 maximum energy efficiency that is                     portable ACs to be approximately 650
                                                       1. Test Burden                                       technologically feasible and                          kWh per year. Id.
                                                    IV. Procedural Issues and Regulatory Review             economically justified. (42 U.S.C.                       In response to the July 2013 NOPD,
                                                       A. Review Under the Regulatory Flexibility           6295(l)(1))                                           DOE received comments from interested
                                                          Act                                                  Under EPCA, the energy conservation                parties on several topics regarding
                                                       B. Description of Materials Incorporated by
                                                                                                            program consists essentially of four                  appropriate test procedures for portable
                                                          Reference
                                                    V. Public Participation                                 parts: (1) testing, (2) labeling, (3) Federal         ACs that DOE should consider if it
                                                    VI. Approval of the Office of the Secretary             energy conservation standards, and (4)                issues a final determination classifying
                                                                                                            certification and enforcement                         portable ACs as a covered product.
                                                    I. Authority and Background                             procedures. The testing requirements
                                                                                                                                                                  1. The May 2014 NODA
                                                       Title III of the Energy Policy and                   consist of test procedures that
                                                    Conservation Act (EPCA), as amended                     manufacturers of covered products must                   On May 9, 2014, DOE published in
                                                    (42 U.S.C. 6291, et seq.; &lsquo;&lsquo;EPCA&rsquo;&rsquo; or, &lsquo;&lsquo;the            use as the basis for: (1) certifying to DOE           the Federal Register a notice of data
                                                    Act&rsquo;&rsquo;) sets forth various provisions                    that their products comply with the                   availability (NODA) (hereinafter referred
                                                    designed to improve energy efficiency.                  applicable energy conservation                        to as the &lsquo;&lsquo;May 2014 NODA&rsquo;&rsquo;), in which
                                                    Part A of title III of EPCA (42 U.S.C.                  standards adopted under EPCA, and (2)                 it agreed that a DOE test procedure for
                                                    6291&ndash;6309) establishes the &lsquo;&lsquo;Energy                     making representations about the                      portable ACs would provide consistency
                                                    Conservation Program for Consumer                       efficiency of those products. Similarly,              and clarity for representations of energy
                                                    Products Other Than Automobiles,&rsquo;&rsquo;                      DOE must use these test procedures to                 use of these products. DOE evaluated
                                                    which covers consumer products and                      determine whether the products comply                 available industry test procedures to
                                                    certain commercial products                             with any relevant standards                           determine whether such methodologies
                                                    (hereinafter referred to as &lsquo;&lsquo;covered                   promulgated under EPCA.                               would be suitable for incorporation in a
                                                    products&rsquo;&rsquo;).1 EPCA authorizes DOE to                                                                          future DOE test procedure, should DOE
                                                                                                            A. General Test Procedure Rulemaking                  determine to classify portable ACs as a
                                                    establish technologically feasible,                     Process
                                                    economically justified energy                                                                                 covered product. DOE conducted testing
                                                    conservation standards for covered                        Under 42 U.S.C. 6293, EPCA sets forth               on a range of portable ACs to determine
                                                                                                            the criteria and procedures DOE must                  typical cooling capacities and cooling
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                                                    products or equipment that would be
                                                                                                            follow when prescribing or amending                   energy efficiencies based on the existing
                                                    likely to result in significant national
                                                                                                            test procedures for covered products.                 industry test methods and other
                                                    energy savings. (42 U.S.C.
                                                                                                            EPCA provides in relevant part that any               modified approaches for portable ACs.
                                                    6295(o)(2)(B)(i)(I)&ndash;(VII)) In addition to
                                                                                                            test procedures prescribed or amended                 79 FR 26639, 26640 (May 9, 2014).
                                                    specifying a list of covered consumer
                                                    and industrial products, EPCA contains                  under this section shall be reasonably
                                                                                                                                                                    2 Transparency Media Research, &lsquo;&lsquo;Air
                                                                                                            designed to produce test results that                 Conditioning Systems Market&mdash;Global Scenario,
                                                      1 For editorial reasons, upon codification in the     measure energy efficiency, energy use or              Trends, Industry Analysis, Size, Share and Forecast,
                                                    U.S. Code, Part B was re-designated Part A.             estimated annual operating cost of a                  2012&ndash;2018,&rsquo;&rsquo; January 2013.



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                                                    2. The February 2015 NOPR                               II. Synopsis of the Supplemental Notice               system or the fan or blower without
                                                                                                            of Proposed Rulemaking                                activation of the refrigeration system. 80
                                                       On February 25, 2015, DOE published                                                                        FR 10211, 10217 (Feb. 25, 2015). DOE
                                                    in the Federal Register a notice of                        Upon further analysis and review of
                                                                                                            the public comments received in                       determined that the existing industry
                                                    proposed rulemaking (NOPR)                                                                                    standards used to measure portable AC
                                                                                                            response to the February 2015 NOPR,
                                                    (hereinafter referred to as the &lsquo;&lsquo;February                                                                    cooling capacity and EER, which are
                                                                                                            DOE proposes in this SNOPR the
                                                    2015 NOPR&rsquo;&rsquo;), in which it proposed test                                                                       based on air enthalpy methods, may not
                                                                                                            following additions and clarifications to
                                                    procedures for portable ACs that would                  its proposed portable AC test procedure:              represent true portable AC performance.
                                                    provide a means of determining                          (1) Minor revisions to the indoor and                 Additionally, DOE is aware that
                                                    efficiency in various operating modes,                  outdoor cooling mode test conditions;                 manufacturers may test according to
                                                    including cooling mode, heating mode,                   (2) an additional test condition for                  different industry standards, causing
                                                    off-cycle mode, standby mode, and off                   cooling mode testing; (3) updated                     confusion and variation in the reported
                                                    mode. 80 FR 10211. For cooling mode                     infiltration air and capacity calculations            cooling capacities and EERs for units
                                                    and heating mode, DOE proposed test                     to account for the second cooling mode                currently on the market. DOE further
                                                    procedures based on the then-current                    test condition; (4) removal of the                    concluded that varying infiltration air
                                                    industry-accepted test procedure,                       measurement of case heat transfer; (5) a              flow rates and heat losses would
                                                    Association of Home Appliance                           clarification of test unit placement                  preclude a fixed translation factor that
                                                    Manufacturers (AHAM) PAC&ndash;1&ndash;2014,                        within the test chamber; (6) removal of               could be applied to the results of an air
                                                    &lsquo;&lsquo;Portable Air Conditioners,&rsquo;&rsquo; with                     the heating mode test procedure; (7) a                enthalpy measurement to account for
                                                    additional provisions to account for heat               revision to the CEER calculation to                   the impact of these effects. Therefore,
                                                    transferred to the indoor conditioned                   reflect the two cooling mode test                     although DOE generally proposed a test
                                                    space from the case, ducts, and any                     conditions and removal of heating mode                procedure for portable ACs based on
                                                    infiltration air from unconditioned                     testing; and (8) additional technical                 AHAM PAC&ndash;1&ndash;2014, the industry-
                                                    spaces. DOE also proposed various                       corrections and clarifications.                       accepted standard for testing portable
                                                    clarifications for cooling mode and                        Other than the specific amendments                 ACs (which is based on an air enthalpy
                                                    heating mode testing, including: (1) Test               newly proposed in this SNOPR, DOE                     approach), the proposed test procedure
                                                                                                            continues to propose the test procedure               incorporated infiltration air effects and
                                                    duct configuration; (2) instructions for
                                                                                                            originally included in the February 2015              heat losses to more accurately measure
                                                    condensate collection; (3) control
                                                                                                            NOPR. For the reader&rsquo;s convenience,                   performance representative of typical
                                                    settings for operating mode, fan speed,
                                                                                                            DOE has reproduced in this SNOPR the                  operation and provide a clear and
                                                    temperature set point, and louver
                                                                                                            entire body of proposed regulatory text               consistent basis for comparison of
                                                    oscillation; and (4) unit placement
                                                                                                            from the February 2015 NOPR, amended                  portable AC capacity and energy use. 80
                                                    within the test chamber. For off-cycle
                                                                                                            as appropriate according to these                     FR 10211, 10222&ndash;10223 (Feb. 25, 2015).
                                                    mode, DOE proposed a test procedure                                                                              The Appliance Standards Awareness
                                                    that would measure portable AC energy                   proposals. DOE&rsquo;s supporting analysis
                                                                                                                                                                  Project (ASAP), Alliance to Save Energy
                                                    use when the ambient dry-bulb                           and discussion for the portions of the
                                                                                                                                                                  (ASE), American Council for an Energy-
                                                    temperature is at or below the setpoint.                proposed regulatory text not affected by
                                                                                                                                                                  Efficient Economy (ACEEE), National
                                                    DOE also identified relevant low-power                  this SNOPR may be found in the
                                                                                                                                                                  Consumer Law Center (NCLC), Natural
                                                    modes, proposed definitions for inactive                February 2015 NOPR. 80 FR 10211 (Feb.
                                                                                                                                                                  Resources Defense Council (NRDC), and
                                                    mode and off mode, and proposed test                    25, 2015).
                                                                                                                                                                  Northwest Energy Efficiency Alliance
                                                    procedures to determine representative                  III. Discussion                                       (NEEA) (hereinafter the &lsquo;&lsquo;Joint
                                                    energy consumption for these modes. Id.                                                                       Commenters&rsquo;&rsquo;) and the Pacific Gas and
                                                                                                            A. Active Mode
                                                       In the February 2015 NOPR, DOE                                                                             Electric Company (PG&amp;E), Southern
                                                    proposed to use a combined energy                          In the February 2015 NOPR, DOE                     California Gas Company (SCGC),
                                                    efficiency ratio (CEER) metric for                      proposed to define active mode, for                   Southern California Edison (SCE), and
                                                    representing the overall energy                         purposes of the portable AC test                      San Diego Gas and Electric Company
                                                    efficiency of single-duct and dual-duct                 procedure, as a mode in which the                     (SDG&amp;E) (hereinafter the &lsquo;&lsquo;California
                                                    portable ACs. The CEER metric would                     portable AC is connected to a mains                   IOUs&rsquo;&rsquo;) supported DOE&rsquo;s proposal to
                                                    represent energy use in all available                   power source, has been activated, and is              adopt AHAM PAC&ndash;1&ndash;2014 with
                                                    operating modes. DOE also proposed a                    performing the main functions of                      modifications to account for the impacts
                                                    cooling mode-specific CEER for units                    cooling or heating the conditioned                    of infiltration air and heat transfer from
                                                    that do not provide a heating function                  space, circulating air through activation             the duct(s) and case, as this would
                                                    to provide a basis for comparing                        of its fan or blower without activation               better reflect real-world performance of
                                                    performance with other cooling                          of the refrigeration system, or defrosting            both single-duct and dual-duct portable
                                                    products such as room ACs. In addition,                 the refrigerant coil. 80 FR 10211, 10216              ACs. (Joint Commenters, No. 19 at p. 1;
                                                    DOE proposed separate energy                            (Feb. 25, 2015). DOE has determined                   California IOUs, No. 20 at p. 1) 3 The
                                                    efficiency ratio (EER) metrics for                      that the existing statutory definition of             Joint Commenters further noted that in
                                                    determining energy efficiency in cooling                &lsquo;&lsquo;active mode&rsquo;&rsquo; is sufficient for purposes
                                                    mode and heating mode only. 80 FR                       of this test procedure and therefore is no              3 A notation in the form &lsquo;&lsquo;Joint Commenters, No.


                                                    10211, 10234&ndash;10235 (Feb. 25, 2015).                     longer proposing a separate definition of             19 at p. 1&rsquo;&rsquo; identifies a written comment: (1) Made
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                                                                                                            &lsquo;&lsquo;active mode&rsquo;&rsquo; for portable ACs.                     by the Appliance Standards Awareness Project,
                                                       DOE also recently initiated a separate                                                                     Alliance to Save Energy, American Council for an
                                                    rulemaking to consider establishing                     B. Cooling Mode                                       Energy-Efficient Economy, National Consumer Law
                                                                                                                                                                  Center, Natural Resources Defense Council, and
                                                    energy conservation standards for                         In the February 2015 NOPR, DOE                      Northwest Energy Efficiency Alliance (the &lsquo;&lsquo;Joint
                                                    portable ACs. Any new standards would                   proposed that cooling mode is a mode                  Commenters&rsquo;&rsquo;); (2) recorded in document number
                                                    be based on the same efficiency metrics                 in which a portable AC has activated the              19 that is filed in the docket of this test procedure
                                                                                                                                                                  rulemaking (Docket No. EERE&ndash;2014&ndash;BT&ndash;TP&ndash;0014)
                                                    derived from the test procedure that                    main cooling function according to the                and available for review at www.regulations.gov;
                                                    DOE would adopt in a final rule in this                 thermostat or temperature sensor signal,              and (3) which appears on page 1 of document
                                                    rulemaking.                                             including activating the refrigeration                number 19.



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                                                    response to the NODA, they had                                                portable ACs. De&rsquo; Longhi stated,                                 of AHAM PAC&ndash;1. DOE notes that
                                                    encouraged DOE to adopt a test                                                however, that testing a single-duct                              AHAM issued a new version of PAC&ndash;1
                                                    procedure based on the calorimeter                                            portable AC according to AHAM PAC&ndash;                               in 2015, with no changes in language
                                                    approach. In light of the data presented                                      1&ndash;2014 results in a cooling capacity                             from the 2014 version. Therefore,
                                                    in the February 2015 NOPR, the Joint                                          about 25 percent lower than the rating                           although DOE previously proposed to
                                                    Commenters now support the proposal                                           obtained with ANSI/ASHRAE 128&ndash;                                   adopt a test procedure for portable ACs
                                                    to base a DOE portable AC test                                                2001. Despite this rated cooling capacity                        that is based on AHAM PAC&ndash;1&ndash;2014,
                                                    procedure on AHAM PAC&ndash;1&ndash;2014 as                                               reduction, De&rsquo; Longhi supports the use                           DOE now proposes in this SNOPR to
                                                    there is a good correlation with the                                          of AHAM PAC&ndash;1&ndash;2014 because it                                    reference the identical updated version,
                                                    calorimeter test results when the                                             ensures more reliable and repeatable                             AHAM PAC&ndash;1&ndash;2015, in the proposed
                                                    proposed adjustments that account for                                         testing data. (De&rsquo; Longhi, No. 16 at pp.                         DOE portable AC test procedure.
                                                    the impact of infiltration air and duct                                       1&ndash;2)                                                             Accordingly, DOE refers to AHAM
                                                    and case heat transfer are applied. (Joint                                      AHAM and De&rsquo; Longhi support the                                PAC&ndash;1&ndash;2015 for the remainder of this
                                                    Commenters, No. 19 at p. 2)                                                   use of AHAM PAC&ndash;1&ndash;2014 as the basis                              SNOPR when discussing its current
                                                       China WTO/TBT National                                                     for a DOE test procedure for portable                            proposals.
                                                    Notification &amp; Enquiry Center (China)                                         ACs, albeit without the addition of
                                                                                                                                                                                                      Additionally, this notice discusses
                                                    noted that, compared to the industry-                                         certain test procedure provisions that
                                                                                                                                                                                                   other modifications to the test
                                                    accepted and commonly used American                                           DOE has proposed. (Public Meeting
                                                                                                                                                                                                   procedure proposed in the February
                                                    National Standards Institute (ANSI)/                                          Transcript, AHAM, No. 13 at p. 31;
                                                                                                                                                                                                   2015 NOPR to address commenters&rsquo;
                                                    American Society of Heating,                                                  Public Meeting Transcript, De&rsquo; Longhi,
                                                                                                                                                                                                   concerns, improve repeatability,
                                                    Refrigerating, and Air-Conditioning                                           No. 13 at pp. 13, 33; AHAM, No. 18 at
                                                    Engineers (ASHRAE) Standard 128&ndash;                                              p. 2; De&rsquo; Longhi, No. 16 at p. 2) 4                              minimize test burden, and ensure the
                                                    2001, &lsquo;&lsquo;Method of Rating Unitary Spot                                           DOE agrees that certain portable ACs                           test procedure is representative of
                                                    Air Conditioners,&rsquo;&rsquo; AHAM PAC&ndash;1&ndash;2014                                           may be currently tested according to                             typical consumer usage.
                                                    is significantly more complex, increases                                      ANSI/ASHRAE 128&ndash;2001, but believes                               1. Test Chamber and Infiltration Air
                                                    the cost of testing, and would require                                        this is largely due to California&rsquo;s                              Conditions
                                                    laboratories to purchase new                                                  regulations for certifying spot coolers
                                                    instrumentation and update or                                                 sold in that State. As discussed in the                            DOE proposed in the February 2015
                                                    reconstruct their chambers. Further,                                          February 2015 NOPR, DOE is not                                   NOPR to utilize the following ambient
                                                    China stated that DOE did not provide                                         proposing testing procedures for spot                            conditions presented in Table III.1
                                                    a comparison between AHAM PAC&ndash;1&ndash;                                              coolers at this time. 80 FR 10212,                               below, based on those test conditions
                                                    2014 and ANSI/ASHRAE 128&ndash;2001                                                 10214&ndash;15 (Feb. 25, 2015). In addition,                           specified in Table 3, &lsquo;&lsquo;Standard Rating
                                                    based on test data. Without a                                                 ANSI/ASHRAE 128&ndash;2001 is an obsolete                              Conditions,&rsquo;&rsquo; of AHAM PAC&ndash;1&ndash;2014.
                                                    comparison of the results, China does                                         version of that test standard, and DOE                           DOE also proposed to determine test
                                                    not believe that DOE can conclude there                                       expects that manufacturers conducting                            configurations according to Table 2 of
                                                    is a marked difference between the two,                                       testing of their portable ACs for reasons                        AHAM PAC&ndash;1&ndash;2014, with Test
                                                    and cannot determine that testing                                             other than certification in California                           Configuration 3 applicable to dual-duct
                                                    according to AHAM PAC&ndash;1&ndash;2014 is                                               may be using a current, industry-                                portable ACs and Test Configuration 5
                                                    necessary. China requested that DOE                                           accepted test standard such as AHAM                              applicable to single-duct portable ACs.
                                                    provide comparative data between the                                          PAC&ndash;1&ndash;2014 or ANSI/ASHRAE 128&ndash;                                   80 FR 10211, 10226 (Feb. 25, 2015). For
                                                    two test procedures. (China, No. 15 at                                        2011, both of which were discussed and                           single-duct units, the condenser inlet
                                                    pp. 3&ndash;4)                                                                      analyzed in the May 2014 NODA and                                conditions are the same as the
                                                       De&rsquo; Longhi Appliances s.r.l. (De&rsquo;                                          February 2015 NOPR. For these reasons,                           evaporator inlet. For dual-duct units,
                                                    Longhi) claimed that in the United                                            and with the general support of                                  the condenser inlet air conditions are
                                                    States, most manufacturers are using the                                      interested parties, DOE continues to                             monitored at the interface between the
                                                    standard ANSI/ASHRAE 128&ndash;2001 to                                              propose a test procedure for portable                            condenser inlet duct and outdoor test
                                                    rate the performance of single-duct                                           ACs that is based on the current version                         room.

                                                                                        TABLE III.1&mdash;STANDARD RATING CONDITIONS&mdash;COOLING MODE&mdash;NOPR PROPOSAL
                                                                                                                                                                                 Evaporator inlet air, &deg;F (&deg;C)       Condenser inlet air, &deg;F (&deg;C)
                                                                                                  Test configuration
                                                                                                                                                                                  Dry bulb         Wet bulb           Dry bulb         Wet bulb

                                                    3 .......................................................................................................................         80.6 (27)        66.2 (19)         95.0 (35)        75.2 (24)
                                                    5 .......................................................................................................................         80.6 (27)        66.2 (19)         80.6 (27)        66.2 (19)
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                                                      4 A notation in the form &lsquo;&lsquo;AHAM, Public Meeting                             meeting; (2) recorded in document number 13,
                                                    Transcript, No. 13 at p. 31&rsquo;&rsquo; identifies an oral                              which is the public meeting transcript that is filed
                                                    comment that DOE received on March 18, 2015                                   in the docket of this test procedure rulemaking; and
                                                    during the NOPR public meeting, was recorded in                               (3) which appears on page 31 of document number
                                                    the public meeting transcript in the docket for this                          13.
                                                    test procedure rulemaking (Docket No. EERE&ndash;2014&ndash;
                                                    BT&ndash;TP&ndash;0014). This particular notation refers to a
                                                    comment (1) made by the Association of Home
                                                    Appliance Manufacturers during the public



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                                                    a. Test Chamber Conditions                                                    in the DOE test procedure for those                              considers to be significant. Therefore,
                                                       In the February 2015 NOPR, DOE                                             products correspond to about 50-percent                          DOE no longer concludes that the test
                                                    noted that the AHAM PAC&ndash;1&ndash;2014 test                                           relative humidity, whereas the AHAM                              condition differences between the 2009
                                                    conditions are slightly different from the                                    PAC&ndash;1&ndash;2014 indoor test conditions are                            and 2014 (and, thus, 2015) versions of
                                                    AHAM PAC&ndash;1&ndash;2009 test conditions,                                              closer to 40-percent relative humidity.                          AHAM PAC&ndash;1 would not substantively
                                                    which AHAM revised to harmonize                                               According to DENSO, this is a                                    impact test results.
                                                    with the temperatures specified in                                            significant difference in test conditions
                                                                                                                                                                                                      DOE further notes that the test
                                                    Canadian Standards Association (CSA)                                          and thus the AHAM PAC&ndash;1&ndash;2014 test
                                                                                                                                                                                                   conditions in AHAM PAC&ndash;1&ndash;2015,
                                                    C370&ndash;2013, &lsquo;&lsquo;Cooling Performance of                                           conditions are not comparable to those
                                                                                                                                                                                                   although harmonized with those in CSA
                                                    Portable Air Conditioners&rsquo;&rsquo; and ANSI/                                         for room ACs or other air conditioning
                                                                                                                                                                                                   C370&ndash;2013 and ANSI/ASHRAE
                                                    ASHRAE Standard 128&ndash;2011, &lsquo;&lsquo;Method                                            products. DENSO also commented that
                                                                                                                                                                                                   Standard 128&ndash;2011, do not align with
                                                    of Rating Portable Air Conditioners.&rsquo;&rsquo;                                        the test conditions should be expressed
                                                                                                                                  in whole degrees instead of three-digit                          the test conditions in the DOE test
                                                    DOE&rsquo;s analysis and testing was                                                                                                                 procedures for other cooling products,
                                                    conducted in accordance with AHAM                                             dry-bulb and wet-bulb temperatures in
                                                                                                                                  &deg;F that are equivalent to whole degrees                          particularly room ACs and central ACs.
                                                    PAC&ndash;1&ndash;2009, as the next version of the                                                                                                         As noted earlier in this section, the
                                                    standard, AHAM PAC&ndash;1&ndash;2014, had not                                            Celsius in other standards. (Public
                                                                                                                                  Meeting Transcript, DENSO, No. 13 at                             AHAM PAC&ndash;1&ndash;2015 test approach is
                                                    yet been finalized. DOE tentatively                                                                                                            generally appropriate for portable ACs.
                                                    determined that the test condition                                            pp. 47&ndash;48, 69&ndash;70; DENSO, No. 14 at p.
                                                                                                                                  2)                                                               However, DOE believes that the test
                                                    differences between the 2009 and 2014                                                                                                          conditions in AHAM PAC&ndash;1&ndash;2009,
                                                    versions of AHAM PAC&ndash;1 would not                                                 In response to the comments received
                                                                                                                                  regarding the chamber test conditions,                           which align with the conditions used
                                                    substantively impact test results.                                                                                                             for testing other DOE covered products,
                                                    Therefore, DOE proposed to use the                                            DOE examined the relative impact of the
                                                                                                                                  varying latent heat differential between                         are more appropriate for testing portable
                                                    updated test conditions from AHAM                                                                                                              AC performance than those in AHAM
                                                    PAC&ndash;1&ndash;2014. DOE also noted in the                                             the indoor and outdoor conditions in
                                                                                                                                  the February 2015 NOPR proposal and                              PAC&ndash;1&ndash;2015. The temperatures
                                                    February 2015 NOPR that these
                                                                                                                                  in AHAM PAC&ndash;1&ndash;2009. The latent heat                              specified in AHAM PAC&ndash;1&ndash;2015 were
                                                    conditions are close, but not identical,
                                                                                                                                  differential impacts cooling capacity                            rounded to produce whole degrees
                                                    to those required by the DOE room AC
                                                                                                                                  primarily through the effects of                                 Celsius, which results in a relative
                                                    test procedure (80 degrees Fahrenheit
                                                                                                                                  infiltration air. Based on the average dry                       humidity on the indoor side (47.0
                                                    (&deg;F) dry-bulb temperature and 67 &deg;F wet-
                                                    bulb temperature on the indoor side,                                          air mass flowrate for the single-duct and                        percent) that differs significantly from
                                                    and 95 &deg;F dry-bulb temperature and                                            dual-duct units in DOE&rsquo;s test sample,                            the relative humidity that DOE has
                                                    75 &deg;F wet-bulb temperature on the                                             DOE estimated that the change in test                            previously determined for room ACs
                                                    outdoor side, consistent with the AHAM                                        conditions from the 2009 to either the                           and central ACs is representative of a
                                                    PAC&ndash;1&ndash;2009 conditions). 80 FR 10211,                                          2014 or 2015 version of AHAM PAC&ndash;1                               residential air-conditioned space (51.1
                                                    10226 (Feb. 25, 2015).                                                        would decrease cooling capacity by                               percent). To maintain consistency
                                                       AHAM agreed that there are no major                                        increasing the heating effect due to                             among products with similar functions,
                                                    differences between the 2009 and 2014                                         infiltration air by an average of 755 Btu/                       DOE proposes in this SNOPR to revise
                                                    versions, and that the main changes                                           h and 330 Btu/h for the two                                      the test conditions proposed in the
                                                    were editorial in nature to harmonize                                         configurations, respectively. With an                            February 2015 NOPR to those presented
                                                    with the Canadian test procedure.                                             average PAC&ndash;1&ndash;2009 cooling capacity                              in Table III.2 below, which would
                                                    AHAM stated that it is important that                                         (without accounting for infiltration air,                        replace the test conditions specified in
                                                    the North American and Canadian                                               case, or duct heat effects) of 7,650 Btu/                        Table 3, &lsquo;&lsquo;Standard Rating Conditions,&rsquo;&rsquo;
                                                    methods are harmonized. (Public                                               h for single-duct units and 6,800 Btu/h                          of AHAM PAC&ndash;1&ndash;2015. As discussed in
                                                    Meeting Transcript, AHAM, No. 13 at                                           for dual-duct units, adjusting the test                          the next section, however, these
                                                    pp. 31&ndash;32)                                                                    conditions from the 2009 to 2015                                 revisions do not comprise the only
                                                       DENSO Products and Services                                                version of AHAM PAC&ndash;1 would                                      changes that DOE is proposing in this
                                                    Americas, Inc. (DENSO) commented                                              decrease cooling capacity by 5&ndash;10                                SNOPR to the rating conditions for
                                                    that the room AC indoor test conditions                                       percent, an amount which DOE                                     portable ACs.

                                                                                                   TABLE III.2&mdash;REVISED STANDARD RATING CONDITIONS&mdash;COOLING MODE
                                                                                                                                                                                 Evaporator inlet air, &deg;F (&deg;C)       Condenser inlet air, &deg;F (&deg;C)
                                                                                                  Test configuration
                                                                                                                                                                                  Dry bulb         Wet bulb           Dry bulb         Wet bulb

                                                    3 .......................................................................................................................         80 (26.7)        67 (19.4)          95 (35)         75 (23.9)
                                                    5 .......................................................................................................................         80 (26.7)        67 (19.4)         80 (26.7)        67 (19.4)



                                                    b. Infiltration Air Conditions                                                conditioned space, dual-duct units also                          bulb temperature, consistent with the
                                                                                                                                  draw a portion of their condenser air                            outdoor conditions specified in AHAM
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                                                      In the February 2015 NOPR, DOE                                              from the conditioned space. DOE                                  PAC&ndash;1&ndash;2014. 80 FR 10211, 10224&ndash;
                                                    noted that infiltration from outside the                                      proposed calculating the infiltration air                        10225 (Feb. 25, 2015).
                                                    conditioned space occurs due to the                                           flow rate as the condenser exhaust flow                            The Joint Commenters supported the
                                                    negative pressure induced as condenser                                        rate to the outdoor chamber minus any                            proposal to use 95 &deg;F dry-bulb
                                                    air is exhausted to the outdoor space.                                        condenser intake flow rate from the                              temperature and 75 &deg;F wet-bulb
                                                    Although this effect is most pronounced                                       outdoor chamber. DOE proposed that                               temperature outdoor air. (Public
                                                    for single-duct units, which draw all of                                      the infiltration air conditions be 95 &deg;F                         Meeting Transcript, ASAP, No. 13 at p.
                                                    their condenser air from within the                                           dry-bulb temperature and 75.2 &deg;F wet-                            44; Joint Commenters, No. 19 at p. 2)


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                                                    The Joint Commenters further stated                     periods before and after summer to cool               systems must be taken into account. De&rsquo;
                                                    that because AHAM PAC&ndash;1&ndash;2014 is                         only a certain room or rooms before                   Longhi also commented that DOE&rsquo;s
                                                    conducted using these outdoor air                       central air conditioning or heating is                approach did not account for any
                                                    conditions, it is important that the same               turned on. According to AHAM, this use                internal heating loads, solar radiation,
                                                    conditions be used for the infiltration                 pattern suggests that an outdoor                      or thermal lag of the building itself.
                                                    air to reflect the real-world performance               temperature representing the hottest                  (Public Meeting Transcript, De&rsquo; Longhi,
                                                    of portable ACs under these outdoor air                 days of summer is not representative of               No. 13 at pp. 41&ndash;43; De&rsquo; Longhi, No. 16
                                                    conditions. The Joint Commenters noted                  consumer use. AHAM commented that                     at pp. 3&ndash;4)
                                                    that all infiltration air is ultimately                 even if consumers use portable ACs                       AHAM agreed with De&rsquo; Longhi, and
                                                    coming from the outdoors and adding                     only in the summer and only the                       noted that even if all air in a home
                                                    heat to the home where the portable AC                  outdoor air temperature is considered, a              originates from outdoors, the infiltration
                                                    is installed. The Joint Commenters                      95 &deg;F infiltration air temperature would              air may be cooled once indoors.
                                                    suspect that, in many cases, the bulk of                still be too high. (AHAM, No. 18 at p.                Moreover, AHAM noted that the
                                                    the infiltration air will be coming                     4)                                                    infiltration air could be at different
                                                    directly from the outdoors due to                          De&rsquo; Longhi and AHAM suggested that,                temperatures for a portable AC that is
                                                    imperfect installations, resulting in                   should DOE include a numerical                        moved from room to room&mdash;for
                                                    leaks through the window where the                      adjustment for infiltration air to the                example, the air in a garage is not likely
                                                    portable AC is installed. The Joint                     results of testing with AHAM PAC&ndash;1&ndash;                   the same temperature as the air in an
                                                    Commenters also suspect that over time,                 2014, the proper temperature for the                  attic or basement. AHAM commented
                                                    a greater portion of the infiltration air               infiltration air would be 70 &deg;F, based on             that if DOE accounts for the effects of
                                                    will come directly through the window                   available data. They noted that 70 &deg;F is              infiltration air, DOE must ensure that
                                                    where the portable AC is installed due                  the representative average cooling                    the temperature is representative and
                                                    to deterioration of the installation as the             season temperature that DOE found for                 based on data. In AHAM&rsquo;s view, given
                                                    unit is repeatedly removed and re-                      the United States as a whole. They also               the uniqueness of homes, that is not
                                                    installed. (Joint Commenters, No. 19 at                 claimed that according to ANSI/AHRI                   practical to do. (AHAM, No. 18 at pp.
                                                    p. 2)                                                   210/240&ndash;2008, an outdoor temperature                  3&ndash;4)
                                                       De&rsquo; Longhi did not agree with DOE&rsquo;s                  of 70 &deg;F represents 50 percent of the                    AHAM, NAM, and DENSO stated that
                                                    proposed approach to address                            total cooling season hours. (Public                   should DOE nevertheless move forward
                                                    infiltration air, stating that it would                 Meeting Transcript, De&rsquo; Longhi, No. 13                with its proposal, it must ensure it
                                                    improperly represent the performance of                 at p. 41; De&rsquo; Longhi, No. 16 at p. 3;                 selects a representative test temperature
                                                    single-duct products because the                        AHAM, No. 18 at p. 4) De&rsquo; Longhi                      for that infiltration air. They commented
                                                    proposed infiltration air conditions of                 further stated that if DOE decides not to             that DOE&rsquo;s current proposal is not
                                                    95 &deg;F dry-bulb temperature and 75.2 &deg;F                  use 70 &deg;F as the outdoor air temperature,             representative and should be revised.
                                                    wet-bulb temperature represent worst-                   this test condition should be no greater              (AHAM, No. 18 at p. 1; NAM, No. 17 at
                                                    case outdoor conditions which occur for                 than 80.6 &deg;F dry-bulb, the standard                   p. 3; DENSO, No. 14 at p. 3)
                                                    a negligible period of time during the                  rating condition for single-duct portable                In response to comments received on
                                                    cooling season. De&rsquo; Longhi noted that                   ACs in AHAM PAC&ndash;1&ndash;2014 for both                       the February 2015 NOPR, DOE
                                                    according to ANSI/Air-Conditioning,                     indoor and outdoor conditions. In order               conducted additional analysis to ensure
                                                    Heating, and Refrigeration Institute                    to compare single-duct and dual-duct                  the DOE test procedure for portable ACs
                                                    (AHRI) 210/240, &lsquo;&lsquo;Performance Rating of                 portable ACs under the same                           is representative of typical cooling
                                                    Unitary Air-Conditioning and Air-                       conditions, De&rsquo; Longhi would also                     product operation and consumer usage.
                                                    Source Heat Pump Equipment&rsquo;&rsquo;, outdoor                   accept 80.6 &deg;F as the outdoor conditions              On the matter of the source of
                                                    temperatures ranging from 95 to 104 &deg;F                  for dual-duct units as well. (Public                  infiltration air, DOE reviewed
                                                    represent just 2.2 percent of the season                Meeting Transcript, De&rsquo; Longhi, No. 13                information developed on infiltration
                                                    while outdoor temperatures range from                   at pp. 43&ndash;44; De&rsquo; Longhi, No. 16 at p.                air flow rates and sources for room ACs,
                                                    65 to 80 &deg;F during 66.1 percent of the                  4)                                                    which encounter issues for sealing in
                                                    season. De&rsquo; Longhi stated that selection                   Friedrich commented that 70 &deg;F is                  windows similar to portable ACs. In a
                                                    of an appropriate outdoor temperature                   low for an outdoor temperature that                   study conducted by the National
                                                    for rating testing is critical for single-              would necessitate AC use, and                         Renewable Energy Laboratory (NREL),5
                                                    duct portable ACs. As a consequence,                    suggested DOE consider 80 &deg;F as the                   infiltration air flow rates around the
                                                    De&rsquo; Longhi commented that DOE&rsquo;s                         outdoor condition. (Public Meeting                    louvers on either side of three room AC
                                                    proposed procedure overstates the                       Transcript, Friedrich, No. 13 at pp. 84&ndash;              test units and the air flow rates through
                                                    impacts of infiltration air. (Public                    85)                                                   the units themselves were measured
                                                    Meeting Transcript, De&rsquo; Longhi, No. 13                     In addition to the proposed                        when the units were installed in a test
                                                    at pp. 39&ndash;40; De&rsquo; Longhi, No. 16 at p.                  temperatures for infiltration air, DOE                chamber outfitted with two residential
                                                    3)                                                      received comments regarding the likely                single-hung windows. The units,
                                                       The National Association of                          origin of the infiltration air to help                including the side louvers, were
                                                    Manufacturers (NAM) stated that if the                  inform the appropriate infiltration air               installed per manufacturer instructions
                                                    test procedure includes an infiltration                 conditions. De&rsquo; Longhi noted that it is               (i.e., no additional sealing around the
                                                    air adjustment, the temperature must be                 possible that some or all of the                      louvers was provided). A variable-speed
                                                    representative and based on data. In                    replacement air is drawn from a location              blower was used to vary the differential
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                                                    NAM&rsquo;s view, given the uniqueness of                     other than the outdoors directly, such as             pressure between the test chamber and
                                                    homes, the proposed infiltration air                    a basement, attic, garage, or a space that            ambient (outdoor condition) from 0 to
                                                    temperatures are not practical, nor are                 is conditioned by other equipment.                    50 Pascals (Pa). NREL found that at 50
                                                    they shown to be based on available                     Thus, De&rsquo; Longhi stated that DOE&rsquo;s
                                                    data. (NAM, No. 17 at p. 2)                             proposed approach is unrealistic, as the                5 Winkler, J., et al., 2013. &lsquo;&lsquo;Laboratory

                                                       AHAM commented that portable ACs                     building spaces from which infiltration               Performance Testing of Residential Window Air
                                                                                                                                                                  Conditioners,&rsquo;&rsquo; National Renewable Energy
                                                    are not used just on the hottest summer                 air may be drawn and other inside air                 Laboratory, Technical Report NREL/TP&ndash;5500&ndash;
                                                    days, but also during the transition                    that may be cooled by central cooling                 57617, March 2013.



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                                                    Pa, the infiltration air flow rates around                                    space initially originated from locations                        regional, and finally, the representative
                                                    the louvers ranged from approximately                                         that could also be direct sources of                             national average temperature and
                                                    50 to 90 standard cubic feet per minute                                       infiltration air for a portable AC, and                          humidity for the hottest 750 hours in
                                                    (SCFM) among the three test units.                                            thus DOE believes that the portable AC                           each state.7 DOE found that the national
                                                    These infiltration air flow rates                                             should not derive a de facto benefit by                          average dry-bulb temperature and
                                                    represented as much as two thirds of the                                      being rated at a lower infiltration air                          relative humidity associated with the
                                                    rated evaporator air flow rates at high                                       temperature achieved via the energy                              hottest 750 hours are 83 &deg;F and 45
                                                    fan speed, and similarly would also                                           consumption of other conditioning                                percent, respectively.
                                                    represent a substantial percentage of the                                     equipment.
                                                                                                                                     DOE next considered commenters&rsquo;                                  To maintain harmonization with other
                                                    infiltration air for a single-duct portable
                                                                                                                                  suggestion that the outdoor test                                 cooling products and the AHAM PAC&ndash;
                                                    AC. NREL estimated that the infiltration
                                                                                                                                  condition in the current version of                              1&ndash;2009 test conditions, as discussed
                                                    air leakage path around the louvers was
                                                                                                                                  AHAM PAC&ndash;1 may not be                                            previously, and to continue to consider
                                                    the equivalent of a 27 to 42 square-inch
                                                    hole in the wall. Because DOE observed                                        representative of a significant portion of                       cooling performance under a rating
                                                    that the window brackets for mounting                                         portable AC operation. DOE revisited its                         condition at which product performance
                                                    the portable AC duct(s) in its test                                           climate analysis from the February 2015                          is most important to consumers, DOE
                                                    sample typically did not include any                                          NOPR to determine the overall average                            proposes to specify the outdoor test
                                                    gasket, tape, or other sealing material, it                                   dry-bulb temperature and relative                                conditions and associated infiltration air
                                                    concludes that outdoor air leaking                                            humidity during hours allotted for                               conditions of 95 &deg;F dry-bulb and 75 &deg;F
                                                    through the portable AC&rsquo;s window                                              cooling mode operation, in locations                             wet-bulb temperature. However, DOE
                                                    bracket likely also represents the source                                     where portable ACs are likely to be                              also proposes in this SNOPR that a
                                                    of a substantial percentage of the                                            used. DOE again performed this climate                           second cooling mode test be conducted
                                                    infiltration air for portable ACs.                                            analysis using 2012 hourly ambient                               for dual-duct units (Test Configuration
                                                    Additionally, because portable ACs that                                       temperature data from the National                               3) at outdoor test conditions that reflect
                                                    do not draw all of the condenser air                                          Climatic Data Center (NCDC) of the                               the weighted-average temperature and
                                                    from outside the conditioned space                                            National Oceanic and Atmospheric                                 humidity observed during the hottest
                                                    create net negative pressure within the                                       Administration (NOAA), collected at                              750 hours (the hours during which DOE
                                                    conditioned space, infiltration air flow                                      weather stations in 44 representative                            expects portable ACs to operate in
                                                    is likely greater than for room ACs.                                          states. DOE determined the average                               cooling mode): 83 &deg;F dry-bulb
                                                    Therefore, DOE continues to conclude                                          temperature and humidity associated                              temperature and 67.5 &deg;F wet-bulb
                                                    that infiltration air temperature is best                                     with the hottest 750 hours for each state                        temperature. For single-duct units (Test
                                                    represented as the outdoor test                                               for which there was data available. DOE                          Configuration 5), DOE would specify a
                                                    condition.                                                                    then reviewed data from the 2009                                 second set of numerical calculations for
                                                       DOE also notes that the temperature                                        Residential Energy Consumption Survey                            cooling capacity and CEER based on
                                                    of infiltration air from sources other                                        (RECS) 6 to identify room AC ownership                           adjustments for infiltration air at these
                                                    than the window bracket cannot be                                             in the different geographic regions                              same conditions, rather than providing
                                                    definitively characterized because the                                        because no portable AC-specific usage                            for an additional test at the weighted-
                                                    air temperature in the other locations                                        data were available. Based on the RECS                           average outdoor temperature and
                                                    may be greater than (e.g., an attic) or less                                  ownership data, DOE used a weighted-                             humidity. In sum, Table III.3 shows the
                                                    than (e.g., a basement) the outdoor                                           average approach to combine the                                  complete set of cooling mode rating
                                                    temperature. In addition, infiltration air                                    average temperature and humidity for                             conditions that DOE proposes for
                                                    that is drawn from other conditioned                                          each individual state into sub-regional,                         portable ACs in this SNOPR.

                                                                                       TABLE III.3&mdash;STANDARD RATING CONDITIONS&mdash;COOLING MODE&mdash;SNOPR PROPOSAL
                                                                                                                                                                                 Evaporator inlet air, &deg;F (&deg;C)       Condenser inlet air, &deg;F (&deg;C)
                                                                                                  Test configuration
                                                                                                                                                                                  Dry bulb         Wet bulb           Dry bulb         Wet bulb

                                                    3 (Condition A) .................................................................................................                 80 (26.7)        67 (19.4)           95 (35)       75 (23.9)
                                                    3 (Condition B) .................................................................................................                 80 (26.7)        67 (19.4)         83 (28.3)      67.5 (19.7)
                                                    5 .......................................................................................................................         80 (26.7)        67 (19.4)         80 (26.7)       67 (19.4)



                                                    c. Infiltration Air Calculations                                              temperature and 67 &deg;F wet-bulb                                   inlet conditions would permit variations
                                                                                                                                  temperature, resulting in a humidity                             in the humidity ratio of up to 8.6
                                                       In the February 2015 NOPR, DOE                                             ratio of 0.0112 pounds of water per                              percent. DOE reviewed its test data and
                                                    proposed that the sensible and latent                                         pounds of dry air (lbw/lbda). DOE further                        found that the maximum variation
                                                    components of infiltration air heat                                           proposed in the February 2015 NOPR                               between the measured and proposed
                                                    transfer be calculated using the                                              that the indoor test chamber dry-bulb                            humidity ratio was 4.5 percent. DOE
                                                    evaporator inlet conditions, to be                                            and wet-bulb temperature conditions be                           believes that the proposal to use the
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                                                    representative of the indoor room&rsquo;s                                           maintained within a range of 1.0 &deg;F,                             measured evaporator inlet conditions
                                                    ambient conditions. As discussed above,                                       with an average difference of 0.3 &deg;F. 80                         (dry-bulb and wet-bulb temperatures
                                                    DOE proposed that the nominal indoor                                          FR 10211, 10224, 10226 (Feb. 25, 2015).                          and the resulting humidity ratio) when
                                                    test chamber conditions for portable AC                                         DOE notes that the allowable
                                                                                                                                                                                                   calculating the impacts of infiltration air
                                                    testing would be 80 &deg;F dry-bulb                                               tolerances for the indoor evaporator
                                                      6 RECS data are available online at: http://                                  7 For more information on the weighted-average                 the February 2015 NOPR. 80 FR 10211, 10235&ndash;27
                                                    www.eia.gov/consumption/residential/data/2009/                                approach that DOE conducted for this analyses, see               (Feb. 25, 2015).
                                                    &Prime;www.eia.gov/consumption/residential/data/2009/.



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				onerror="this.src='https://thefederalregister.org/doc/80_FR_74248/page/8.png'; this.onerror=null" alt="                                                                          Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules                                                  74027

                                                    heat transfer may introduce variability                 does not explicitly specify the test                  bins.8 For portable ACs, DOE estimated
                                                    in the test results due to the sensitivity              duration required when conducting                     hours per temperature bin from the
                                                    of infiltration air to the allowable                    portable AC active mode testing.                      climate data analysis, and proposes in
                                                    evaporator inlet conditions variability                 Therefore, DOE proposes in this SNOPR                 this SNOPR to apply weighting factors
                                                    and the resulting impact on overall                     that the active mode test duration shall              of 20 percent and 80 percent to the
                                                    cooling capacity. Therefore, DOE                        be determined in accordance with                      results of its testing at 95 &deg;F and 83 &deg;F,
                                                    proposes in this SNOPR to calculate the                 section 8.7 of ASHRAE 37&ndash;2009.                        respectively. DOE welcomes input on
                                                    sensible and latent heat contributions of                                                                     whether different weighting factors
                                                    infiltration air using the nominal test                 3. Seasonally Adjusted Cooling Capacity               would be appropriate.
                                                    chamber temperatures and subsequent                                                                              Therefore, DOE proposes to calculate
                                                                                                               In the February 2015 NOPR, DOE
                                                    humidity ratio to reduce test variability.                                                                    SACC according to the following
                                                                                                            proposed a calculation for adjusted
                                                      DOE further notes that there was an                                                                         equation.
                                                                                                            cooling capacity, ACC, defined as the
                                                    error in the equations proposed in the                  measured cooling capacity adjusted for                SACC = (ACC95 &times; 0.2) + (ACC83 &times; 0.8)
                                                    February 2015 NOPR that divided the                     case, duct, and infiltration air heat                 Where:
                                                    quantity of heat, in Btu/min, by 60                     transfer impacts. 80 FR 10211, 10225                  SACC is the seasonally adjusted cooling
                                                    instead of multiplying by 60 to convert                 (Feb. 25, 2015).                                           capacity, in Btu/h.
                                                    to Btu/h. 80 FR 10211, 10224 (Feb. 25,                                                                        ACC95 and ACC83 are the adjusted cooling
                                                    2015). This SNOPR corrects the                             With the proposal to add a second                       capacities calculated at the 95 &deg;F and
                                                    calculation error in DOE&rsquo;s proposal.                    cooling mode test condition for dual-                      83 &deg;F dry-bulb outdoor conditions, in
                                                      Based on these changes, DOE                           duct portable ACs and, similarly, a                        Btu/h, respectively.
                                                                                                            second numerically applied infiltration               0.2 is the weighting factor for ACC95.
                                                    proposes in this SNOPR to calculate the                                                                       0.8 is the weighting factor for ACC83.
                                                    sensible and latent heat components of                  air condition for single-duct portable
                                                    infiltration air, using the nominal test                ACs, DOE proposes that the adjusted                   4. Duct Heat Transfer and Leakage
                                                    chamber temperatures and subsequent                     cooling capacities for both sets of                      In the February 2015 NOPR, DOE
                                                    humidity ratio, as follows:                             conditions be combined to create a                    presented its determination that duct
                                                    Qs = ṁ &times; 60 &times; [(cp_da &times; (Tia &ndash; Tindoor)) +             seasonally adjusted cooling capacity,                 heat losses and air leakage are non-
                                                         cp_wv &times; (wia &times; Tia &ndash; windoor &times; Tindoor)]           SACC. The higher outdoor temperature                  negligible effects, and therefore
                                                    Where:                                                  condition is consistent with that used                proposed to account for heat transferred
                                                    Qs is the sensible heat added to the room by            for testing other air conditioning                    from the duct surface to the conditioned
                                                         infiltration air, in Btu/h;                        equipment and ensures that products                   space in the portable AC test procedure.
                                                    ṁ is the dry air mass flow rate of infiltration        can operate when they are most needed,                DOE proposed that four equally spaced
                                                         air for a single-duct or dual-dual duct            while the cooler condition represents                 thermocouples be adhered to the side of
                                                         unit, in lb/m;                                     the typical outdoor temperatures
                                                    cp_da is the specific heat of dry air, 0.24 Btu/
                                                                                                                                                                  the entire length of the condenser
                                                                                                            encountered during use. Because the                   exhaust duct for single-duct units and
                                                         lbm&yen;&deg;F.                                            performance of a portable AC is
                                                    cp_wv is the specific heat of water vapor,                                                                    the condenser inlet and exhaust ducts
                                                         0.444 Btu/lbm&yen;&deg;F.                                  important under each of these scenarios,              for dual-duct units. DOE proposed to
                                                    Tindoor is the indoor chamber dry-bulb                  DOE proposes in this SNOPR to weight                  determine the duct heat transfer for each
                                                         temperature, 80 &deg;F.                                the adjusted cooling capacities obtained              duct from the average duct surface
                                                    Tia is the infiltration air dry-bulb                    under the two cooling mode conditions                 temperature as measured by the four
                                                         temperature, 95 &deg;F.                                to calculate the SACC as follows.                     thermocouples, a convection heat
                                                    wia is the humidity ratio of the infiltration air,                                                            transfer coefficient of 4 Btu/h per square
                                                                                                               Using an analytical approach based
                                                         0.0141 lbw/lbda.
                                                    windoor is the humidity ratio of the indoor             on climate and RECS data that was                     foot per &deg;F (Btu/h-ft2&yen;&deg;F), and the
                                                         chamber air, 0.0112 lbw/lbda.                      similar to the method used to determine               calculated duct surface area based on
                                                    60 is the conversion factor from minutes to             representative rating conditions, DOE                 the test setup. 80 FR 10211, 10227 (Feb.
                                                         hours.                                             estimated the percentage of portable AC               25, 2015).
                                                    Ql = ṁ &times; 60 &times; Hfg &times; (wia &ndash; windoor)                    operating hours that would be                         a. Duct Heat Transfer Impacts
                                                                                                            associated with each rating condition.
                                                    Where:                                                  From the climate data, DOE allocated                     ASAP supported incorporating the
                                                    Ql is the latent heat added to the room by                                                                    duct heat transfer effects into the
                                                                                                            the number of annual hours with
                                                         infiltration air, in Btu/h.                                                                              measurement of cooling capacity, and
                                                    ṁ is the mass flow rate of infiltration air for        temperatures that ranged from 80 &deg;F (the
                                                                                                            indoor test condition) to 89 &deg;F (a                    noted that there was a reasonably good
                                                         a single-duct or dual-dual duct unit, in
                                                                                                            temperature mid-way between the two                   correlation between the results using the
                                                         lb/m.
                                                    Hfg is the latent heat of vaporization for water        rating conditions) to the 83 &deg;F rating                calorimeter method and the modified
                                                         vapor, 1061 Btu/lbm.                               condition. The hours in which the                     AHAM method, as presented in the
                                                    wia is the humidity ratio of the infiltration air,      ambient temperature was greater than                  February 2015 NOPR. (Public Meeting
                                                         0.0141 lbw/lbda.                                   89 &deg;F were assigned to the 95 &deg;F rating               Transcript, ASAP, No. 13 at p. 56)
                                                    windoor is the humidity ratio of the indoor             condition. DOE then performed the                        AHAM and De&rsquo; Longhi stated that
                                                         chamber air, 0.0112 lbw/lbda.
                                                                                                            geographical weighted averaging using                 DOE&rsquo;s proposed test for duct heat
                                                    60 is the conversion factor from minutes to                                                                   transfer and leakage unnecessarily
                                                         hours.                                             the RECS data as discussed in section
                                                                                                            III.1.b to determine weighting factors of             complicates the test procedure without
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                                                    2. Test Duration                                        19.7 percent and 80.3 percent,                        a corresponding benefit. They also
                                                                                                            respectively, for the 95 &deg;F and 83 &deg;F                 stated that the methodology for the
                                                       AHAM PAC&ndash;1&ndash;2015 specifies testing                                                                          temperature sensor placement and
                                                    in accordance with certain sections of                  rating conditions. A similar approach
                                                                                                            was adopted for central ACs, where                    determination of overall heat losses may
                                                    ANSI/ASHRAE Standard 37&ndash;2009,                                                                                 be interpreted differently. AHAM
                                                    &lsquo;&lsquo;Methods of Testing for Rating                         DOE specifies eight test conditions and
                                                    Electrically Driven Unitary Air-                        corresponding weighting factors that are                8 The DOE test procedure for central ACs is
                                                    Conditioning and Heat Pump                              based on the distribution of fractional               codified at 10 CFR part 430, subpart B, appendix
                                                    Equipment&rsquo;&rsquo; (ASHRAE 37&ndash;2009), but                       hours for representative temperature                  M.



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onerror="this.src='https://thefederalregister.org/doc/80_FR_74248/page/9.png'; this.onerror=null;" alt="                                                    74028                 Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules

                                                    further commented that should DOE                         China commented that DOE did not                    III.1 shows the impact of duct heat
                                                    decide to include provisions for duct                   present the percent of the total cooling              transfer as a percentage of the AHAM
                                                    heat transfer and leakage, DOE should                   capacity associated with the duct and                 PAC&ndash;1&ndash;2009 cooling capacity measured
                                                    evaluate the impact of these effects on                 case heat transfer, and that it would be              in the February 2015 NOPR for each
                                                    test procedure repeatability and                        necessary to consider such data before                unit in DOE&rsquo;s test sample. Exhaust duct
                                                    reproducibility, preferably through a                   adopting an approach that accounts for                heat transfer is presented for each
                                                    round robin test including                              these heat transfer effects. (China, No.              single-duct unit, while a pair of values
                                                    manufacturers and third-party                           15 at p. 3)                                           for inlet duct heat transfer and exhaust
                                                    laboratories. (AHAM, No. 18 at p. 5; De&rsquo;                  In response to these comments, DOE                  duct heat transfer are presented for each
                                                                                                            conducted further analysis to quantify
                                                    Longhi, No. 16 at p. 4)                                                                                       dual-duct unit.
                                                                                                            the impacts of duct heat transfer. Figure




                                                       As shown in Figure III.1, the exhaust                proposed for the duct heat transfer                   Further, DOE notes that the convection
                                                    duct heat transfer determined according                 calculation to be arbitrary, and                      heat transfer coefficient may vary among
                                                    to the proposed methodology ranged                      recommended measuring the conditions                  different laboratories and even for
                                                    from just below 6 percent to almost 18                  of the air at the inlet and outlet of each            different chambers and test setups
                                                    percent of the AHAM PAC&ndash;1&ndash;2009                          duct to substantiate that factor. (Public             within each test laboratory. This would
                                                    cooling capacity, with an average value                 Meeting Transcript, DENSO, No. 13 at p.               introduce variability from test to test, as
                                                    of 11.1 percent. The intake duct heat                   53; DENSO, No. 14 at p. 2) DOE                        the heat transfer coefficient may be
                                                    transfer effect was lower than that of the              recognizes that different test setups may             highly sensitive to the specific test
                                                    exhaust duct due to the lower air                       have somewhat different convective                    setup. To minimize the test burden and
                                                    temperature at the inlet, with values                   heat transfer coefficients. However,                  limit variability, DOE proposed one
                                                    ranging from about 3 percent to almost                  when developing test procedures, DOE                  convection heat transfer coefficient for
                                                    5 percent of the unadjusted cooling                     must consider the test burden and                     all units to provide a consistent estimate
                                                    capacity and an average of 3.7 percent.                 impact on manufacturers and test                      of the duct heat transfer.
                                                    DOE finds the exhaust and intake duct                   laboratories. Taking that into
                                                    heat transfer impacts sufficiently                                                                               In the February 2015 NOPR, DOE
                                                                                                            consideration, DOE proposed an
                                                    significant to warrant the added test                   approach in the February 2015 NOPR                    estimated the convection heat transfer
                                                    burdens associated with determining                     that would minimize burden while                      coefficient to be 4 Btu/h-ft2 &deg;F based
                                                    duct heat transfer. Therefore, DOE                      capturing the impact of heat transfer                 on a midpoint of values associated with
                                                    maintains the proposal from the                         from ducts, which DOE determined to                   free convection and forced convection,
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                                                    February 2015 NOPR to measure and                       have a significant impact on overall net              as recommended by the test laboratory
                                                    incorporate the duct heat transfer                      cooling capacity. DOE also notes that                 that conducted testing for the NOPR. 80
                                                    impacts into the overall seasonally                     the approach proposed by DENSO to                     FR 10211, 10219 (Feb. 25, 2015). The
                                                    adjusted cooling capacity.                              characterize heat loss to the conditioned             convection coefficient was based on
                                                                                                            space would significantly increase test               values derived from coefficients listed
                                                    b. Convection Coefficient
                                                                                                            burden, requiring additional                          in the 2013 ASHRAE Handbook&mdash;
                                                       DENSO considered the 4 Btu/h-                        thermocouples and modification of the
                                                    ft2 &deg;F convection coefficient
                                                                                                                                                                                                                EP27NO15.003&lt;/GPH&gt;




                                                                                                            test setup on the unit-side of the duct.


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		>
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                                        width="1275" height="1651" alt="                                                    74028                 Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules

                                                    further commented that should DOE                         China commented that DOE did not                    III.1 shows the impact of duct heat
                                                    decide to include provisions for duct                   present the percent of the total cooling              transfer as a percentage of the AHAM
                                                    heat transfer and leakage, DOE should                   capacity associated with the duct and                 PAC&ndash;1&ndash;2009 cooling capacity measured
                                                    evaluate the impact of these effects on                 case heat transfer, and that it would be              in the February 2015 NOPR for each
                                                    test procedure repeatability and                        necessary to consider such data before                unit in DOE&rsquo;s test sample. Exhaust duct
                                                    reproducibility, preferably through a                   adopting an approach that accounts for                heat transfer is presented for each
                                                    round robin test including                              these heat transfer effects. (China, No.              single-duct unit, while a pair of values
                                                    manufacturers and third-party                           15 at p. 3)                                           for inlet duct heat transfer and exhaust
                                                    laboratories. (AHAM, No. 18 at p. 5; De&rsquo;                  In response to these comments, DOE                  duct heat transfer are presented for each
                                                                                                            conducted further analysis to quantify
                                                    Longhi, No. 16 at p. 4)                                                                                       dual-duct unit.
                                                                                                            the impacts of duct heat transfer. Figure




                                                       As shown in Figure III.1, the exhaust                proposed for the duct heat transfer                   Further, DOE notes that the convection
                                                    duct heat transfer determined according                 calculation to be arbitrary, and                      heat transfer coefficient may vary among
                                                    to the proposed methodology ranged                      recommended measuring the conditions                  different laboratories and even for
                                                    from just below 6 percent to almost 18                  of the air at the inlet and outlet of each            different chambers and test setups
                                                    percent of the AHAM PAC&ndash;1&ndash;2009                          duct to substantiate that factor. (Public             within each test laboratory. This would
                                                    cooling capacity, with an average value                 Meeting Transcript, DENSO, No. 13 at p.               introduce variability from test to test, as
                                                    of 11.1 percent. The intake duct heat                   53; DENSO, No. 14 at p. 2) DOE                        the heat transfer coefficient may be
                                                    transfer effect was lower than that of the              recognizes that different test setups may             highly sensitive to the specific test
                                                    exhaust duct due to the lower air                       have somewhat different convective                    setup. To minimize the test burden and
                                                    temperature at the inlet, with values                   heat transfer coefficients. However,                  limit variability, DOE proposed one
                                                    ranging from about 3 percent to almost                  when developing test procedures, DOE                  convection heat transfer coefficient for
                                                    5 percent of the unadjusted cooling                     must consider the test burden and                     all units to provide a consistent estimate
                                                    capacity and an average of 3.7 percent.                 impact on manufacturers and test                      of the duct heat transfer.
                                                    DOE finds the exhaust and intake duct                   laboratories. Taking that into
                                                    heat transfer impacts sufficiently                                                                               In the February 2015 NOPR, DOE
                                                                                                            consideration, DOE proposed an
                                                    significant to warrant the added test                   approach in the February 2015 NOPR                    estimated the convection heat transfer
                                                    burdens associated with determining                     that would minimize burden while                      coefficient to be 4 Btu/h-ft2 &deg;F based
                                                    duct heat transfer. Therefore, DOE                      capturing the impact of heat transfer                 on a midpoint of values associated with
                                                    maintains the proposal from the                         from ducts, which DOE determined to                   free convection and forced convection,
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                                                    February 2015 NOPR to measure and                       have a significant impact on overall net              as recommended by the test laboratory
                                                    incorporate the duct heat transfer                      cooling capacity. DOE also notes that                 that conducted testing for the NOPR. 80
                                                    impacts into the overall seasonally                     the approach proposed by DENSO to                     FR 10211, 10219 (Feb. 25, 2015). The
                                                    adjusted cooling capacity.                              characterize heat loss to the conditioned             convection coefficient was based on
                                                                                                            space would significantly increase test               values derived from coefficients listed
                                                    b. Convection Coefficient
                                                                                                            burden, requiring additional                          in the 2013 ASHRAE Handbook&mdash;
                                                       DENSO considered the 4 Btu/h-                        thermocouples and modification of the
                                                    ft2 &deg;F convection coefficient
                                                                                                                                                                                                                EP27NO15.003&lt;/GPH&gt;




                                                                                                            test setup on the unit-side of the duct.


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                                                    Fundamentals 9 for various types of                                   TABLE III.4&mdash;MEASURED DUCT CON- 5. Case Heat Transfer
                                                    assemblies in buildings. Depending on                                 VECTION HEAT TRANSFER COEFFI-     In the February 2015 NOPR, DOE
                                                    the orientation of the surface, direction                             CIENTS&mdash;Continued               proposed that case heat transfer be
                                                    of heat flow, and emissivity of the heat                                                                                       determined using a method similar to
                                                    transfer surface, the typical coefficients                                                                         Duct        the approach proposed for duct heat
                                                    for indoor assemblies, which DOE                                                                               convection      transfer. DOE proposed that the surface
                                                    deduced would be subject primarily to                                            Test unit                    heat transfer
                                                                                                                                                                    coefficient    area and average temperature of each
                                                    free convection, ranged from 0.22 to                                                                         (Btu/h-ft2 &deg;F)    side of the case be measured to
                                                    1.63 Btu/h-ft2 &deg;F. ASHRAE also                                                                                                 determine the overall case heat transfer,
                                                    provided coefficients for assemblies                                DD1 (Test 1) .......................                4.10   which would be used to adjust the
                                                    located outside and subject to wind                                 DD1 (Test 2) .......................                3.76   cooling capacity and efficiency. DOE
                                                    speeds of 7.5 and 15 miles per hour (5.1                            DD2 (Test 1) .......................                2.11
                                                                                                                                                                                   noted that the case heat transfer
                                                    and 10.2 feet per second, respectively),                            DD2 (Test 2) .......................                2.27
                                                                                                                        Average ..............................              3.13   methodology would impose additional
                                                    which were 4.00 and 6.00 Btu/h-                                                                                                test burden, but determined that the
                                                    ft2 &deg;F, respectively. Because these                                   SD = Single-duct.                                        burdens were likely outweighed by the
                                                    speeds potentially correspond to air                                  DD = Dual-duct.                                          benefit of addressing the heat transfer
                                                    flow speeds over the portable AC duct(s)                               Although the average heat transfer                      effects of all internal heating
                                                    due to circulation of the conditioned air                           coefficient calculated from DOE&rsquo;s test                     components. 80 FR 10211, 10227&ndash;10229
                                                    in the space, for example by the portable                           results was slightly lower than the value                  (Feb. 25, 2015).
                                                    AC blower and infiltration air, DOE                                 proposed in the February 2015 NOPR,                           DENSO commented that DOE should
                                                    used these values as proxies for                                    DOE notes that there is variation in                       incorporate the effects of evaporator fan
                                                    convective heat transfer coefficients for                           individual results that is likely due to                   heat rather than case heat transfer
                                                    the duct surfaces. Therefore, DOE                                   different duct types, installation                         effects, because all of the fan motor
                                                    proposed in the February 2015 NOPR                                  configurations, forced convection air                      power ends up in the evaporator
                                                    that the overall heat transfer coefficient                          flow patterns, and other factors.                          exhaust air stream. DENSO also stated
                                                    for calculating duct heat losses would                              Therefore, DOE proposes to maintain                        that heat transfer mechanics for all
                                                    be 4 Btu/h-ft2 &deg;F, an approximate                                   the original duct heat transfer proposal                   surfaces of the case are not the same.
                                                    midpoint of the values described.                                   from the February 2015 NOPR,                               (DENSO, No. 14 at p. 2)
                                                       To further validate the proposed                                 including the convection heat transfer                        Friedrich believes that there is no
                                                    convection heat transfer coefficient for                            coefficient of 4 Btu/h-ft2 &deg;F.                             need to measure heat loss from the
                                                    this notice, DOE re-examined the data it                                                                                       electrical components inside the case
                                                    obtained from testing a sample of four                              c. Duct Surface Area Measurements                          because the end result of the test would
                                                    single-duct and two dual-duct portables                                In the February 2015 NOPR, DOE                          be the total cooling capacity coming
                                                    ACs with and without duct insulation                                proposed that the duct surface area be                     from the portable AC and the total
                                                    for the May 2014 NODA. These tests                                  calculated using the outer duct diameter                   measure of energy consumption. (Public
                                                    were conducted using the calorimeter                                and extended length of the duct while                      Meeting Transcript, Friedrich, No. 13 at
                                                    approach described in the May 2014                                  under test. 80 FR 10211, 10227 (Feb. 25,                   p. 34)
                                                    NODA, such that duct heat losses could                              2015).                                                        De&rsquo; Longhi noted that because there is
                                                    be measured by subtracting the                                         De&rsquo; Longhi and AHAM commented                           a wide range in unit design, each
                                                    measured cooling capacity without                                   that ducts often have a corrugated                         portable AC may have uniquely shaped
                                                    insulation from the cooling capacity                                surface, so that the measure of the                        faces on the case, and it would be very
                                                    with insulation. Using the duct heat                                duct(s) surface area will have high                        difficult or impossible to identify the
                                                    losses, duct surface area, and the                                  uncertainty. (De&rsquo; Longhi, No. 16 at p. 4;                  front, back, right, left, top, and bottom
                                                    differential between the indoor side                                AHAM, No. 18 at p. 5) DOE further                          of the case. De&rsquo; Longhi stated that
                                                    ambient temperature and the average of                              examined the surface area of the ducts                     laboratories may measure the surface
                                                    the duct surface temperatures, an                                   in its test sample. DOE calculated the                     temperature differently, and therefore,
                                                    average duct heat transfer coefficient                              surface area in two ways, one with the                     the proposal in the February 2015 NOPR
                                                    could be empirically determined for                                 ducts fully extended and the other with                    may lead to inconsistencies among
                                                    units in DOE&rsquo;s test sample. The results                             the duct setup as required in AHAM                         different laboratories. De&rsquo; Longhi further
                                                    of this calculation are shown in Table                              PAC&ndash;1&ndash;2015. DOE found that the                             suggested that the convection coefficient
                                                    III.4 below.                                                        average difference in surface area                         should be different for each side of the
                                                                                                                        calculated using the fully extended duct                   case due to the different orientation of
                                                      TABLE III.4&mdash;MEASURED DUCT CON-                                    versus using the test setup was 7.5                        each surface, and commented that a
                                                      VECTION HEAT TRANSFER COEFFI-                                     percent. With the average duct impact                      small variation in the position of the
                                                       CIENTS                                                           on cooling capacity of 11.1 percent and                    temperature sensors can cause
                                                                                                                        3.7 percent for single-duct and dual-                      significant differences in the average
                                                                                                        Duct            duct units, respectively, the overall                      temperatures of each case. (Public
                                                                                                    convection          variability that differences in duct
                                                                 Test unit                         heat transfer                                                                   Meeting Transcript, De&rsquo; Longhi, No. 13
                                                                                                     coefficient        surface area determinations would                          at pp. 55&ndash;56; De&rsquo; Longhi, No. 16 at p.
                                                                                                  (Btu/h-ft2 &deg;F)        introduce into the cooling capacity                        4)
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                                                                                                                        would be no greater than 1 percent.                           AHAM stated that the proposed
                                                    SD1   .....................................                  2.74   Therefore, DOE concludes that any                          methodology for determining case heat
                                                    SD2   .....................................                  3.08   uncertainty in duct surface area                           transfer unnecessarily complicates the
                                                    SD3   .....................................                  1.70
                                                                                                                        measurements would not have a                              test procedure and will likely lead to
                                                    SD4   .....................................                  5.26
                                                                                                                        significant impact on test repeatability                   variation. AHAM believes the impact of
                                                      9 ASHRAE Handbook&mdash;Fundamentals. American
                                                                                                                        and reproducibility and maintains the                      case heat transfer is negligible and does
                                                    Society of Heating, Refrigerating, and Air-                         surface area measurement as proposed                       not justify the added burden and
                                                    Conditioning Engineers, Atlanta, GA. 2013.                          in the February 2015 NOPR.                                 variation. According to AHAM, if DOE


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                                                    continues to consider case heat transfer,               laboratories. (AHAM, No. 18 at pp. 5&ndash;                 AHAM PAC&ndash;1&ndash;2009 for the February
                                                    DOE should characterize the proposed                    6)                                                    2015 NOPR. Figure III.2 shows, for each
                                                    test procedure&rsquo;s repeatability and                         In response to these comments, DOE                 portable AC in its test sample, the heat
                                                    reproducibility, preferably through a                   further investigated the effects of case              transfer determined for each case side
                                                    round robin test including                              heat transfer as a percentage of the                  and the sum of all case sides as a
                                                    manufacturers and third-party                           overall cooling capacity by analyzing                 percentage of the AHAM PAC&ndash;1&ndash;2009
                                                                                                            the data determined in accordance with                cooling capacity.




                                                       From the data in Figure III.2, DOE                   surfaces of the portable AC with no air               reach. (Public Meeting Transcript, De&rsquo;
                                                    calculated that the average heat transfer               inlet or exhaust (other than the bottom               Longhi, No. 13 at pp. 59&ndash;60; De&rsquo; Longhi,
                                                    for individual case sides was 0.29                      of the unit) and any wall surfaces. 80 FR             No. 16 at p. 4)
                                                    percent of the AHAM PAC&ndash;1&ndash;2009                          10211, 10229&ndash;10230 (Feb. 25, 2015).                     DOE recognizes that the length of the
                                                    cooling capacity, and the maximum heat                     According to DENSO, the 6-foot
                                                                                                                                                                  duct and duct setup as outlined in
                                                    transfer observed for a single side was                 minimum spacing would cause an
                                                                                                                                                                  AHAM PAC&ndash;1&ndash;2015 dictate the
                                                    2.27 percent. The total case heat transfer              unreasonable performance penalty
                                                                                                                                                                  distance of the portable AC from the
                                                    impact was, on average, 1.76 percent of                 when duct losses are incorporated into
                                                                                                                                                                  partition wall. Therefore, DOE proposes
                                                    the AHAM PAC&ndash;1&ndash;2009 cooling                             the efficiency rating. DENSO further
                                                                                                                                                                  to adjust the February 2015 NOPR
                                                    capacity, with a maximum of 6.53                        noted that the ducted side of a portable
                                                                                                            AC is often located relatively close to               proposals for unit placement that would
                                                    percent. Because the total case heat                                                                          have required no less than 6 feet
                                                    transfer impact is, on average, less than               the wall where the duct is mounted.
                                                                                                            (DENSO, No. 14 at p. 3)                               between the evaporator inlet and any
                                                    2 percent of the cooling capacity                                                                             chamber wall surfaces, and for single-
                                                    without adjustments for infiltration air                   AHAM objected to the proposed test
                                                                                                            unit placement, commenting that, due                  duct units, no less than 6 feet between
                                                    and heat transfer effects, DOE proposes                                                                       the condenser inlet surface and any
                                                    to remove the provisions for                            to duct length, it may not be feasible to
                                                                                                            maintain the proposed distances from                  other wall surface. Because AHAM
                                                    determining case heat transfer from the                                                                       PAC&ndash;1&ndash;2015 specifies the distance
                                                                                                            the partition wall. AHAM stated that
                                                    proposed portable AC test procedure.                                                                          between the test unit and the partition
                                                                                                            this particular distance is variable and
                                                    6. Test Unit Placement                                  unit-dependent, and should not be                     wall, DOE proposes that the test unit be
                                                                                                            applicable for single-duct or dual-duct               placed in such a way that there is no
                                                      In the February 2015 NOPR, DOE                        units. (AHAM, No. 18 at pp. 6&ndash;7)                      less than 3 feet between any test
                                                    proposed that for all portable AC                          De&rsquo; Longhi requested clarification as              chamber wall and any surface on the
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                                                    configurations, there must be no less                   to whether the back of the unit, or side              portable AC, except the surface or
                                                    than 6 feet between the evaporator inlet                with the duct attachments, is considered              surfaces that have a duct attachment, as
                                                    and any chamber wall surface, and for                   a side that must be placed at the                     prescribed by the AHAM PAC&ndash;1&ndash;2015
                                                    single-duct units, there must be no less                minimum distance from the chamber or                  test setup requirements. DOE notes that
                                                    than 6 feet between the condenser inlet                 partition walls. If so, De&rsquo; Longhi                    this test unit placement would provide
                                                    surface and any other wall surface.                     commented that the unit should be                     manufacturers and test laboratories
                                                    Additionally, DOE proposed that there                   placed at least 6 feet from the partition             more flexibility in the use of their test
                                                                                                                                                                                                              EP27NO15.004&lt;/GPH&gt;




                                                    be no less than 3 feet between the other                wall and the ducts would likely not                   chambers than that proposed in the


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                                        width="1275" height="1651" alt="                                                    74030                 Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules

                                                    continues to consider case heat transfer,               laboratories. (AHAM, No. 18 at pp. 5&ndash;                 AHAM PAC&ndash;1&ndash;2009 for the February
                                                    DOE should characterize the proposed                    6)                                                    2015 NOPR. Figure III.2 shows, for each
                                                    test procedure&rsquo;s repeatability and                         In response to these comments, DOE                 portable AC in its test sample, the heat
                                                    reproducibility, preferably through a                   further investigated the effects of case              transfer determined for each case side
                                                    round robin test including                              heat transfer as a percentage of the                  and the sum of all case sides as a
                                                    manufacturers and third-party                           overall cooling capacity by analyzing                 percentage of the AHAM PAC&ndash;1&ndash;2009
                                                                                                            the data determined in accordance with                cooling capacity.




                                                       From the data in Figure III.2, DOE                   surfaces of the portable AC with no air               reach. (Public Meeting Transcript, De&rsquo;
                                                    calculated that the average heat transfer               inlet or exhaust (other than the bottom               Longhi, No. 13 at pp. 59&ndash;60; De&rsquo; Longhi,
                                                    for individual case sides was 0.29                      of the unit) and any wall surfaces. 80 FR             No. 16 at p. 4)
                                                    percent of the AHAM PAC&ndash;1&ndash;2009                          10211, 10229&ndash;10230 (Feb. 25, 2015).                     DOE recognizes that the length of the
                                                    cooling capacity, and the maximum heat                     According to DENSO, the 6-foot
                                                                                                                                                                  duct and duct setup as outlined in
                                                    transfer observed for a single side was                 minimum spacing would cause an
                                                                                                                                                                  AHAM PAC&ndash;1&ndash;2015 dictate the
                                                    2.27 percent. The total case heat transfer              unreasonable performance penalty
                                                                                                                                                                  distance of the portable AC from the
                                                    impact was, on average, 1.76 percent of                 when duct losses are incorporated into
                                                                                                                                                                  partition wall. Therefore, DOE proposes
                                                    the AHAM PAC&ndash;1&ndash;2009 cooling                             the efficiency rating. DENSO further
                                                                                                                                                                  to adjust the February 2015 NOPR
                                                    capacity, with a maximum of 6.53                        noted that the ducted side of a portable
                                                                                                            AC is often located relatively close to               proposals for unit placement that would
                                                    percent. Because the total case heat                                                                          have required no less than 6 feet
                                                    transfer impact is, on average, less than               the wall where the duct is mounted.
                                                                                                            (DENSO, No. 14 at p. 3)                               between the evaporator inlet and any
                                                    2 percent of the cooling capacity                                                                             chamber wall surfaces, and for single-
                                                    without adjustments for infiltration air                   AHAM objected to the proposed test
                                                                                                            unit placement, commenting that, due                  duct units, no less than 6 feet between
                                                    and heat transfer effects, DOE proposes                                                                       the condenser inlet surface and any
                                                    to remove the provisions for                            to duct length, it may not be feasible to
                                                                                                            maintain the proposed distances from                  other wall surface. Because AHAM
                                                    determining case heat transfer from the                                                                       PAC&ndash;1&ndash;2015 specifies the distance
                                                                                                            the partition wall. AHAM stated that
                                                    proposed portable AC test procedure.                                                                          between the test unit and the partition
                                                                                                            this particular distance is variable and
                                                    6. Test Unit Placement                                  unit-dependent, and should not be                     wall, DOE proposes that the test unit be
                                                                                                            applicable for single-duct or dual-duct               placed in such a way that there is no
                                                      In the February 2015 NOPR, DOE                        units. (AHAM, No. 18 at pp. 6&ndash;7)                      less than 3 feet between any test
                                                    proposed that for all portable AC                          De&rsquo; Longhi requested clarification as              chamber wall and any surface on the
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                                                    configurations, there must be no less                   to whether the back of the unit, or side              portable AC, except the surface or
                                                    than 6 feet between the evaporator inlet                with the duct attachments, is considered              surfaces that have a duct attachment, as
                                                    and any chamber wall surface, and for                   a side that must be placed at the                     prescribed by the AHAM PAC&ndash;1&ndash;2015
                                                    single-duct units, there must be no less                minimum distance from the chamber or                  test setup requirements. DOE notes that
                                                    than 6 feet between the condenser inlet                 partition walls. If so, De&rsquo; Longhi                    this test unit placement would provide
                                                    surface and any other wall surface.                     commented that the unit should be                     manufacturers and test laboratories
                                                    Additionally, DOE proposed that there                   placed at least 6 feet from the partition             more flexibility in the use of their test
                                                                                                                                                                                                              EP27NO15.004&lt;/GPH&gt;




                                                    be no less than 3 feet between the other                wall and the ducts would likely not                   chambers than that proposed in the


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                                                    February 2015 NOPR, and would still                     that DOE should not require it to be                  1. Annual Operating Mode Hours
                                                    provide sufficient space around the test                tested. (Public Meeting Transcript,                      As presented in the February 2015
                                                    unit to ensure free air flow with no air                AHAM, No. 13 at p. 64; AHAM, No. 18                   NOPR, DOE developed several estimates
                                                    constriction.                                           at pp. 7, 10; De&rsquo; Longhi, No. 16 at p. 5;             of portable AC annual operating mode
                                                                                                            NAM, No. 17 at p. 2)                                  hours for cooling, heating, off-cycle, and
                                                    C. Heating Mode                                            AHAM noted that many of the                        inactive or off modes. However, the
                                                       As discussed in the February 2015                    comments submitted regarding cooling                  three estimates that addressed units
                                                    NOPR, certain portable ACs, including                   mode would also apply to heating mode                 with both cooling and heating mode
                                                    some of the units in DOE&rsquo;s test sample,                 where applicable. Specifically, should
                                                    incorporate a heating function in                                                                             operating hours are no longer applicable
                                                                                                            DOE require measurement of heating
                                                    addition to cooling mode. DOE                                                                                 with the removal of the heating mode
                                                                                                            mode, AHAM would not object to DOE&rsquo;s
                                                    proposed to define heating mode as an                                                                         test procedure. Therefore, for this
                                                                                                            proposal to use the unit and duct setup
                                                    active mode in which a portable AC has                                                                        revised analysis, DOE considered the
                                                                                                            requirements and control settings of
                                                    activated the main heating function                                                                           annual operating mode hours for all
                                                                                                            AHAM PAC&ndash;1&ndash;2014, as well as the test
                                                    according to the thermostat or                                                                                portable ACs to be those from the
                                                                                                            configurations referenced in Table 2 of
                                                    temperature sensor signal, including                                                                          &lsquo;&lsquo;Cooling Only&rsquo;&rsquo; scenario presented in
                                                                                                            AHAM PAC&ndash;1&ndash;2014. AHAM opposed
                                                    activating a resistance heater, the                                                                           the February 2015 NOPR as follows:
                                                                                                            the inclusion of infiltration air, duct
                                                    refrigeration system with a reverse                     heat transfer, case transfer, and test unit
                                                    refrigerant flow valve, or the fan or                   placement for heating mode as
                                                                                                                                                                      TABLE III.5&mdash;PROPOSED ANNUAL
                                                    blower without activation of the                        discussed for cooling mode. (AHAM,                         OPERATING HOURS BY MODE
                                                    resistance heater or refrigeration system.              No. 18 at pp. 7&ndash;8)
                                                    80 FR 10211, 10217 (Feb. 25, 2015). In                                                                                                                   Operating
                                                                                                               DENSO stated that its cooling mode                                Modes                        hours
                                                    the February 2015 NOPR, DOE                             comments are generally applicable for
                                                    concluded that a heating mode test to                   heating mode as well. (DENSO, No. 14                  Cooling Mode ...........................          750
                                                    measure heating mode performance was                    at p. 3)                                              Off-Cycle Mode .........................          880
                                                    feasible, and proposed a heating mode                      After considering stakeholder                      Off/Inactive Mode .....................         1,355
                                                    test procedure that utilized AHAM                       comments opposing the test procedure
                                                    PAC&ndash;1&ndash;2014 at lower temperature                         for heating mode and in light of the test               More information on the development
                                                    ambient conditions and with                             burden that the heating mode test would               of these annual hours for each operating
                                                    comparable adjustments as were                          impose, DOE proposes to remove the                    mode can be found in the February 2015
                                                    considered for cooling mode. 80 FR                      heating mode test provisions from the                 NOPR. 80 FR 10211, 10235&ndash;10237 (Feb.
                                                    10211, 10230&ndash;10231 (Feb. 25, 2015).                     proposed DOE portable AC test                         25, 2015).
                                                       AHAM and De&rsquo; Longhi opposed                          procedure, including the definition of                  Friedrich noted that it rates its
                                                    DOE&rsquo;s proposal to require testing in                    heating mode and calculations for                     portable AC energy consumption based
                                                    heating mode. They noted that heating                   EERhm and total combined energy                       on 750 hours, the same cooling mode
                                                    mode is not the main consumer utility                   efficiency ratio. Accordingly, the                    operating hours as room ACs. Friedrich
                                                    offered by portable ACs, and                            cooling-specific energy efficiency ratio,             suggested that DOE maintain the
                                                    commented that it was not clear how                     EERcm, is no longer necessary, as the                 proposal of 750 annual cooling mode
                                                    often consumers use the heating feature                 combined efficiency ratio, CEER, would                operating hours for portable ACs to
                                                    and whether the burden of including                     appropriately represent energy                        maintain harmonization with room ACs
                                                    this mode in the test procedure would                   efficiency in all modes under                         and properly reflect unit annual energy
                                                    be justified. AHAM, NAM, and De&rsquo;                        consideration. DOE expects that                       consumption. (Public Meeting
                                                    Longhi commented that there are not                     measuring performance in cooling                      Transcript, Friedrich, No. 13 at p. 84)
                                                    sufficient heating mode data upon                       mode, off-cycle mode, standby mode,                     AHAM and NAM disagreed with
                                                    which to determine whether to include                   and off mode would capture                            DOE&rsquo;s proposals, stating that the
                                                    measurement of or assign annual                         representative performance of portable                majority of the analysis was based on
                                                    operating hours to heating mode.                        ACs during the cooling season. DOE                    outdated room AC data. They asserted
                                                    AHAM and NAM further noted that in                      may reconsider including a test for                   that although portable ACs and room
                                                    the heating analysis, DOE assumed that                  heating mode in a future test procedure               ACs are similar in some ways, the usage
                                                    the consumer will use a portable AC in                  rulemaking.                                           profiles and installation locations of the
                                                    heating mode when the temperature has                                                                         two products differ. AHAM and NAM
                                                    fallen below 45 &deg;F, but presented no                    D. Combined Energy Efficiency Ratio                   urged DOE to obtain data on consumer
                                                    consumer data to support that                             In the February 2015 NOPR, DOE                      usage of portable ACs or demonstrate
                                                    assumption. According to AHAM,                          proposed a single energy conservation                 that consumer use of portable ACs and
                                                    consumer usage of portable ACs in                       standard metric for portable ACs, in                  room ACs are sufficiently comparable.
                                                    heating mode is extremely limited due                   accordance with the requirements of                   (Public Meeting Transcript, AHAM, No.
                                                    to the seasonality of the product.                      EPCA. (42 U.S.C. 6295(gg)(3)(A)) The                  13 at pp. 81&ndash;83; AHAM, No. 18 at p. 10;
                                                    AHAM, NAM, and De&rsquo; Longhi                               single integrated efficiency metric,                  NAM, No. 17 at pp. 1&ndash;2)
                                                    commented that DOE should be                            CEER, weights the average power in                      AHAM and NAM also objected to
                                                    consistent with its other analyses when                 each operating mode, as measured by                   DOE basing the proposed unplugged
                                                    considering heating mode. For example,                  the proposed test procedure, with                     hours on assumptions, without any
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                                                    they stated that DOE did not propose                    estimated annual operating hours for                  consumer study or supporting data.
                                                    testing in fan-only mode because it                     each mode. The modes considered in                    These commenters stated that DOE
                                                    would be impractical, nor did it propose                the February 2015 NOPR procedure                      should obtain consumer use data in
                                                    testing in dehumidification mode                        were cooling mode, heating mode, off-                 order to inform its proposal on the
                                                    because it is not the primary mode of                   cycle mode (with and without fan                      number of unplugged hours. (Public
                                                    operation for portable ACs. These                       operation), inactive mode (including                  Meeting Transcript, AHAM, No. 13 at p.
                                                    commenters considered heating mode to                   bucket-full mode), and off mode. 80 FR                81; AHAM, No. 18 at p. 10; NAM, No.
                                                    be no different, and therefore concluded                10211, 10234&ndash;10235 (Feb. 25, 2015).                   17 at p. 2)


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                                                       AHAM further commented that it is                    analysis and approach described in the                would equal CEERcm for units without
                                                    not aware of consumer usage data for                    February 2015 NOPR. DOE welcomes                      heating mode. With the newly proposed
                                                    portable ACs, but would attempt to                      any additional information and data                   removal of heating mode from the test
                                                    request that information from its                       regarding consumer use to further                     procedure and addition of a second set
                                                    members. AHAM urged DOE not to                          inform the proposed annual mode                       of testing conditions for dual-duct units,
                                                    proceed in the absence of such                          operating hours.                                      DOE also proposes in this SNOPR to
                                                    consumer use data. (Public Meeting                                                                            eliminate the CEERcm calculation and to
                                                                                                            2. CEER Calculation
                                                    Transcript, AHAM, No. 13 at pp. 83&ndash;84)                                                                        revise the CEER metric calculation as
                                                       Neither AHAM nor manufacturers                          In addition to the CEER metric that
                                                                                                                                                                  follows, using the same weighting
                                                    provided additional consumer usage                      incorporated energy consumption in all
                                                                                                            operating modes, including heating                    factors as were developed for SACC.
                                                    data, and no further data were available
                                                    from RECS or other sources. Therefore,                  mode, DOE proposed a simplified CEER                  The revised calculations also correctly
                                                    DOE continues to utilize the most                       metric in the February 2015 NOPR for                  divide energy consumption by annual
                                                    relevant consumer use data available                    portable ACs that do not include a                    cooling mode hours rather than total
                                                    and proposes the annual operating                       heating mode (CEERcm). The CEER                       annual hours, as was initially proposed
                                                    hours in Table III.5, maintaining the                   calculation in the February 2015 NOPR                 in the February 2015 NOPR.




                                                    Where:                                                  10 CFR 429.62. DOE further maintains                  removal of heating mode testing and
                                                    CEERSD and CEERDD are the combined                      its proposal that the CEER would be                   case heat transfer considerations, would
                                                          energy efficiency ratios for single-duct          rounded to the nearest 0.1 Btu/Wh.                    not significantly increase the overall test
                                                          and dual duct units, respectively, in Btu/                                                              burden compared to the test procedure
                                                          Wh.                                               E. Compliance With Other Energy Policy
                                                                                                                                                                  proposed in the February 2015 NOPR.
                                                    ACC95 and ACC83 are the adjusted cooling                and Conservation Act Requirements
                                                          capacities, tested at the 95 &deg;F and 83 &deg;F
                                                                                                                                                                  Further, because the added cooling
                                                          dry-bulb outdoor conditions,
                                                                                                            1. Test Burden                                        mode test conditions are closer to those
                                                          respectively, in Btu/h.                              EPCA requires that any test                        of the originally proposed cooling mode
                                                    AECSD is the annual energy consumption in               procedures prescribed or amended shall                test than the test conditions for the
                                                          cooling mode for single-duct units, in            be reasonably designed to produce test                heating mode test, DOE estimates that
                                                          kWh/year.                                         results which measure energy                          less time would be required to achieve
                                                    AEC95 is the annual energy consumption in                                                                     and maintain the chamber conditions
                                                                                                            efficiency, energy use, or estimated
                                                          cooling mode for dual-duct units,                                                                       for the second cooling mode test than
                                                          assuming all cooling mode hours would             annual operating cost of a covered
                                                                                                            product during a representative average               for a heating mode test, decreasing the
                                                          be at the 95 &deg;F dry-bulb outdoor
                                                          conditions, in kWh/year.                          use cycle or period of use, and shall not             test burden for dual-duct units with a
                                                    AEC83 is the annual energy consumption in               be unduly burdensome to conduct. (42                  heating mode. In addition, the outdoor
                                                          cooling mode for dual-duct units,                 U.S.C. 6293(b)(3)) In the February 2015               test chamber would not be required to
                                                          assuming all cooling mode hours would             NOPR, DOE concluded that establishing                 reach the low temperatures required for
                                                          be at the 83 &deg;F dry-bulb outdoor                  a test procedure to measure the energy                the proposed heating mode test, which
                                                          conditions, in kWh/year.                          consumption of portable ACs in active                 may have presented difficulties for some
                                                    AECT is the total annual energy consumption             mode, standby mode, and off mode                      manufacturers and test laboratories to
                                                          attributed to all modes except cooling, in                                                              achieve.
                                                          kWh/year.
                                                                                                            would produce the required test results
                                                    t is the number of cooling mode hours per               and would not be unduly burdensome                      For dual-duct units without a heating
                                                          year, 750.                                        to conduct. This determination was                    mode, the proposals in this notice
                                                    k is 0.001 kWh/Wh conversion factor for                 driven by the many similarities between               would introduce test burden by
                                                          watt-hours to kilowatt-hours.                     the necessary testing equipment and                   requiring a second cooling mode test.
                                                    0.2 is the weighting factor for the 95 &deg;F dry-          facilities for portable ACs and other                 However, the removal of case surface
                                                          bulb outdoor condition test.                      products, whose performance is                        temperature measurements would likely
                                                    0.8 is the weighting factor for the 83 &deg;F dry-          currently certified through a DOE test                mitigate the increased burden associated
                                                          bulb outdoor condition test.                      procedure. Therefore, DOE concluded                   with this second cooling mode test,
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                                                      The February 2015 NOPR included                       that manufacturers would not be                       resulting in similar overall test burden
                                                    incorrect text stating that the                         required to make significant investment               as for the test procedure proposed in the
                                                    representative CEER would be the mean                   in test facilities and new equipment.                 February 2015 NOPR.
                                                    of the test unit efficiencies. DOE                         DOE notes that the modifications to                  DOE concludes that although this
                                                    proposes in this SNOPR to clarify that                  the portable AC test procedures                       SNOPR introduces modifications to the
                                                    the representative CEER for a basic                     introduced in this notice, mainly the                 test procedures proposed in the
                                                    model is calculated based on the                        additional test condition in cooling                  February 2015 NOPR, it does not
                                                                                                                                                                                                                EP27NO15.005&lt;/GPH&gt;




                                                    sampling plan instructions proposed in                  mode for dual-duct units and the                      significantly increase the test burden,


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                                                       AHAM further commented that it is                    analysis and approach described in the                would equal CEERcm for units without
                                                    not aware of consumer usage data for                    February 2015 NOPR. DOE welcomes                      heating mode. With the newly proposed
                                                    portable ACs, but would attempt to                      any additional information and data                   removal of heating mode from the test
                                                    request that information from its                       regarding consumer use to further                     procedure and addition of a second set
                                                    members. AHAM urged DOE not to                          inform the proposed annual mode                       of testing conditions for dual-duct units,
                                                    proceed in the absence of such                          operating hours.                                      DOE also proposes in this SNOPR to
                                                    consumer use data. (Public Meeting                                                                            eliminate the CEERcm calculation and to
                                                                                                            2. CEER Calculation
                                                    Transcript, AHAM, No. 13 at pp. 83&ndash;84)                                                                        revise the CEER metric calculation as
                                                       Neither AHAM nor manufacturers                          In addition to the CEER metric that
                                                                                                                                                                  follows, using the same weighting
                                                    provided additional consumer usage                      incorporated energy consumption in all
                                                                                                            operating modes, including heating                    factors as were developed for SACC.
                                                    data, and no further data were available
                                                    from RECS or other sources. Therefore,                  mode, DOE proposed a simplified CEER                  The revised calculations also correctly
                                                    DOE continues to utilize the most                       metric in the February 2015 NOPR for                  divide energy consumption by annual
                                                    relevant consumer use data available                    portable ACs that do not include a                    cooling mode hours rather than total
                                                    and proposes the annual operating                       heating mode (CEERcm). The CEER                       annual hours, as was initially proposed
                                                    hours in Table III.5, maintaining the                   calculation in the February 2015 NOPR                 in the February 2015 NOPR.




                                                    Where:                                                  10 CFR 429.62. DOE further maintains                  removal of heating mode testing and
                                                    CEERSD and CEERDD are the combined                      its proposal that the CEER would be                   case heat transfer considerations, would
                                                          energy efficiency ratios for single-duct          rounded to the nearest 0.1 Btu/Wh.                    not significantly increase the overall test
                                                          and dual duct units, respectively, in Btu/                                                              burden compared to the test procedure
                                                          Wh.                                               E. Compliance With Other Energy Policy
                                                                                                                                                                  proposed in the February 2015 NOPR.
                                                    ACC95 and ACC83 are the adjusted cooling                and Conservation Act Requirements
                                                          capacities, tested at the 95 &deg;F and 83 &deg;F
                                                                                                                                                                  Further, because the added cooling
                                                          dry-bulb outdoor conditions,
                                                                                                            1. Test Burden                                        mode test conditions are closer to those
                                                          respectively, in Btu/h.                              EPCA requires that any test                        of the originally proposed cooling mode
                                                    AECSD is the annual energy consumption in               procedures prescribed or amended shall                test than the test conditions for the
                                                          cooling mode for single-duct units, in            be reasonably designed to produce test                heating mode test, DOE estimates that
                                                          kWh/year.                                         results which measure energy                          less time would be required to achieve
                                                    AEC95 is the annual energy consumption in                                                                     and maintain the chamber conditions
                                                                                                            efficiency, energy use, or estimated
                                                          cooling mode for dual-duct units,                                                                       for the second cooling mode test than
                                                          assuming all cooling mode hours would             annual operating cost of a covered
                                                                                                            product during a representative average               for a heating mode test, decreasing the
                                                          be at the 95 &deg;F dry-bulb outdoor
                                                          conditions, in kWh/year.                          use cycle or period of use, and shall not             test burden for dual-duct units with a
                                                    AEC83 is the annual energy consumption in               be unduly burdensome to conduct. (42                  heating mode. In addition, the outdoor
                                                          cooling mode for dual-duct units,                 U.S.C. 6293(b)(3)) In the February 2015               test chamber would not be required to
                                                          assuming all cooling mode hours would             NOPR, DOE concluded that establishing                 reach the low temperatures required for
                                                          be at the 83 &deg;F dry-bulb outdoor                  a test procedure to measure the energy                the proposed heating mode test, which
                                                          conditions, in kWh/year.                          consumption of portable ACs in active                 may have presented difficulties for some
                                                    AECT is the total annual energy consumption             mode, standby mode, and off mode                      manufacturers and test laboratories to
                                                          attributed to all modes except cooling, in                                                              achieve.
                                                          kWh/year.
                                                                                                            would produce the required test results
                                                    t is the number of cooling mode hours per               and would not be unduly burdensome                      For dual-duct units without a heating
                                                          year, 750.                                        to conduct. This determination was                    mode, the proposals in this notice
                                                    k is 0.001 kWh/Wh conversion factor for                 driven by the many similarities between               would introduce test burden by
                                                          watt-hours to kilowatt-hours.                     the necessary testing equipment and                   requiring a second cooling mode test.
                                                    0.2 is the weighting factor for the 95 &deg;F dry-          facilities for portable ACs and other                 However, the removal of case surface
                                                          bulb outdoor condition test.                      products, whose performance is                        temperature measurements would likely
                                                    0.8 is the weighting factor for the 83 &deg;F dry-          currently certified through a DOE test                mitigate the increased burden associated
                                                          bulb outdoor condition test.                      procedure. Therefore, DOE concluded                   with this second cooling mode test,
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                                                      The February 2015 NOPR included                       that manufacturers would not be                       resulting in similar overall test burden
                                                    incorrect text stating that the                         required to make significant investment               as for the test procedure proposed in the
                                                    representative CEER would be the mean                   in test facilities and new equipment.                 February 2015 NOPR.
                                                    of the test unit efficiencies. DOE                         DOE notes that the modifications to                  DOE concludes that although this
                                                    proposes in this SNOPR to clarify that                  the portable AC test procedures                       SNOPR introduces modifications to the
                                                    the representative CEER for a basic                     introduced in this notice, mainly the                 test procedures proposed in the
                                                    model is calculated based on the                        additional test condition in cooling                  February 2015 NOPR, it does not
                                                                                                                                                                                                                EP27NO15.005&lt;/GPH&gt;




                                                    sampling plan instructions proposed in                  mode for dual-duct units and the                      significantly increase the test burden,


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                                                    and may instead reduce the overall test                 not have a significant economic impact                tests or power metering instrumentation
                                                    burden. Therefore, the determination in                 on a substantial number of small                      required. In addition, the elimination of
                                                    the February 2015 NOPR that the                         entities. Accordingly, DOE has not                    the case heat transfer requirement
                                                    proposed portable AC test procedure                     prepared a regulatory flexibility analysis            would avoid the potential need for
                                                    would produce test results that measure                 for this rulemaking. DOE will transmit                setting up and purchasing additional
                                                    energy consumption during                               the certification and supporting                      temperature sensors, estimated to cost
                                                    representative use and that the test                    statement of factual basis to the Chief               less than $500 for both equipment and
                                                    procedure would not be unduly                           Counsel for Advocacy of the Small                     labor.
                                                    burdensome to conduct still applies.                    Business Administration (SBA) for                       On the basis of this analysis, DOE
                                                                                                            review under 5 U.S.C. 605(b).                         tentatively concludes that the proposed
                                                    IV. Procedural Issues and Regulatory                       In the alternative, should any small
                                                    Review                                                                                                        rule would not have a significant
                                                                                                            business manufacturers of portable ACs                economic impact on a substantial
                                                       DOE has concluded that the                           be identified, DOE evaluated the                      number of small entities, should any
                                                    determinations made pursuant to the                     modifications proposed in this SNOPR                  small business manufacturers of
                                                    various procedural requirements                         to determine if these modification                    portable ACs be identified.
                                                    applicable to the February 2015 NOPR,                   would have a significant economic                       DOE seeks comment on the
                                                    set forth at 80 FR 10212, 10238&ndash;10241,                  impact on small businesses as compared                determinations in this section and
                                                    remain unchanged for this SNOPR,                        to the proposals in the February 2015                 information on whether any small
                                                    except for the following additional                     NOPR. DOE believes that these                         businesses manufacture portable ACs.
                                                    analysis and determination DOE                          modifications are likely to reduce
                                                    conducted in accordance with the                        overall test burden with respect to the               B. Description of Materials Incorporated
                                                    Regulatory Flexibility Act (5 U.S.C. 601                proposals in the February 2015 NOPR,                  by Reference
                                                    et seq.).                                               and therefore would not have a                           In this SNOPR, DOE proposes to
                                                    A. Review Under the Regulatory                          significant economic impact on small                  incorporate by reference the test
                                                    Flexibility Act                                         businesses, should any be identified.                 standard published by AHAM, titled
                                                                                                               In this SNOPR, DOE proposes to
                                                       The Regulatory Flexibility Act (5                                                                          &lsquo;&lsquo;Portable Air Conditioners,&rsquo;&rsquo; AHAM
                                                                                                            increase the number of cooling mode
                                                    U.S.C. 601 et seq.) requires preparation                                                                      PAC&ndash;1&ndash;2015. AHAM PAC&ndash;1&ndash;2015 is an
                                                                                                            tests for dual-duct portable ACs from
                                                    of an initial regulatory flexibility                                                                          industry accepted test procedure that
                                                                                                            one test to two tests at different outdoor
                                                    analysis (IFRA) for any rule that by law                test conditions. Although this increase               measures portable AC performance in
                                                    must be proposed for public comment,                    requires running the cooling mode test                cooling mode and is applicable to
                                                    unless the agency certifies that the rule,              a second time, DOE notes that the test                products sold in North America. AHAM
                                                    if promulgated, will not have a                         setup would not need to be modified                   PAC&ndash;1&ndash;2015 specifies testing conducted
                                                    significant economic impact on a                        between testing and as such would not                 in accordance with other industry
                                                    substantial number of small entities. As                significantly increase the test burden                accepted test procedures (already
                                                    required by Executive Order 13272,                      beyond that for a single cooling mode                 incorporated by reference) and
                                                    &lsquo;&lsquo;Proper Consideration of Small Entities                test. The remaining changes associated                determines energy efficiency metrics for
                                                    in Agency Rulemaking,&rsquo;&rsquo; 67 FR 53461                     with the additional outdoor test                      various portable AC configurations. The
                                                    (August 16, 2002), DOE published                        condition impact the post-testing                     test procedure proposed in this SNOPR
                                                    procedures and policies on February 19,                 calculations and therefore do not                     references various sections of AHAM
                                                    2003, to ensure that the potential                      increase test burden.                                 PAC&ndash;1&ndash;2015 that address test setup,
                                                    impacts of its rules on small entities are                 DOE further proposes in this SNOPR                 instrumentation, test conduct,
                                                    properly considered during the DOE                      to remove the measurement of case heat                calculations, and rounding. AHAM
                                                    rulemaking process. 68 FR 7990. DOE                     transfer and the heating mode testing                 PAC&ndash;1&ndash;2015 is readily available on
                                                    has made its procedures and policies                    requirements that were originally                     AHAM&rsquo;s Web site at http://
                                                    available on the Office of the General                  proposed in the February 2015 NOPR.                   www.aham.org/ht/d/ProductDetails/
                                                    Counsel&rsquo;s Web site: http://energy.gov/                  The removal of the case heat transfer                 sku/PAC12009/from/714/pid/.
                                                    gc/office-general-counsel.                              measurement eliminates the added                         In this SNOPR, DOE also proposes to
                                                       DOE reviewed this proposed rule                      burden of determining surface area of                 incorporate by reference the test
                                                    under the provisions of the Regulatory                  each case surface and measuring the                   standard ASHRAE Standard 37&ndash;2009,
                                                    Flexibility Act and the procedures and                  average temperature of each surface. In               titled &lsquo;&lsquo;Methods of Testing for Rating
                                                    policies published on February 19,                      addition, the removal of the heating                  Electrically Driven Unitary Air-
                                                    2003. DOE&rsquo;s IRFA is set forth in the                    mode test significantly reduces test                  Conditioning and Heat Pump
                                                    February 2015 NOPR, with additional                     burden for dual-duct units with a                     Equipment,&rsquo;&rsquo; (ANSI Approved). ANSI/
                                                    analysis below based on the proposals                   heating mode, in that a substantial                   ASHRAE Standard 37&ndash;2009 is an
                                                    in this SNOPR. DOE seeks comment on                     stabilization period is avoided that                  industry-accepted test standard
                                                    its analysis and the economic impacts of                would require reducing the outdoor                    referenced by AHAM PAC&ndash;1&ndash;2015 that
                                                    the rule on small manufacturers. In the                 chamber conditions well below those                   defines various uniform methods for
                                                    February 2015 NOPR, DOE estimated                       for the cooling mode test.                            measuring performance of air
                                                    that there is one small business that                      In the February 2015 NOPR, DOE                     conditioning and heat pump equipment.
                                                    manufactures portable ACs. Since the                    concluded that the costs associated with              Although AHAM PAC&ndash;1&ndash;2015
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                                                    February 2015 NOPR, DOE has                             the February 2015 NOPR proposals were                 references a number of sections in
                                                    determined that this small business no                  small compared to the overall financial               ANSI/ASHRAE Standards 37&ndash;2009, the
                                                    longer produces portable ACs and,                       investment needed to undertake the                    test procedure proposed in this SNOPR
                                                    therefore, DOE is unable to identify any                business enterprise of developing and                 additionally references one section in
                                                    small businesses that currently                         testing consumer products. 80 FR                      ANSI/ASHRAE Standards 37&ndash;2009 that
                                                    manufacture portable ACs. For this                      10211, 10239. Compared to the                         addresses test duration. ANSI/ASHRAE
                                                    reason, DOE tentatively concludes and                   proposals in the February 2015 NOPR,                  Standards 37&ndash;2009 is readily available
                                                    certifies that the proposed rule would                  there is no net change in the number of               on ANSI&rsquo;s Web site at http://webstore.


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                                                    ansi.org/RecordDetail.aspx?sku=                            Submitting comments via email, hand                generally known by or available from
                                                    ANSI%2FASHRAE+Standard+37-2009.                         delivery, or mail. Comments and                       other sources; (4) whether the
                                                                                                            documents submitted via email, hand                   information has previously been made
                                                    V. Public Participation
                                                                                                            delivery, or mail also will be posted to              available to others without obligation
                                                       DOE will accept comments, data, and                  regulations.gov. If you do not want your              concerning its confidentiality; (5) an
                                                    information regarding this proposed                     personal contact information to be                    explanation of the competitive injury to
                                                    rule no later than the date provided in                 publicly viewable, do not include it in               the submitting person which would
                                                    the DATES section at the beginning of                   your comment or any accompanying                      result from public disclosure; (6) when
                                                    this proposed rule. Interested parties                  documents. Instead, provide your                      such information might lose its
                                                    may submit comments using any of the                    contact information on a cover letter.                confidential character due to the
                                                    methods described in the ADDRESSES                      Include your first and last names, email              passage of time; and (7) why disclosure
                                                    section at the beginning of this notice.                address, telephone number, and                        of the information would be contrary to
                                                       Submitting comments via                              optional mailing address. The cover                   the public interest.
                                                    www.regulations.gov. The                                letter will not be publicly viewable as
                                                    regulations.gov Web page will require                                                                           It is DOE&rsquo;s policy that all comments
                                                                                                            long as it does not include any                       may be included in the public docket,
                                                    you to provide your name and contact                    comments.
                                                    information. Your contact information                                                                         without change and as received,
                                                                                                               Include contact information each time              including any personal information
                                                    will be viewable to DOE Building                        you submit comments, data, documents,
                                                    Technologies staff only. Your contact                                                                         provided in the comments (except
                                                                                                            and other information to DOE. If you                  information deemed to be exempt from
                                                    information will not be publicly                        submit via mail or hand delivery, please
                                                    viewable except for your first and last                                                                       public disclosure).
                                                                                                            provide all items on a CD, if feasible. It
                                                    names, organization name (if any), and                  is not necessary to submit printed                    VI. Approval of the Office of the
                                                    submitter representative name (if any).                 copies. No facsimiles (faxes) will be                 Secretary
                                                    If your comment is not processed                        accepted.
                                                    properly because of technical                              Comments, data, and other                            The Secretary of Energy has approved
                                                    difficulties, DOE will use this                         information submitted to DOE                          publication of this supplemental notice
                                                    information to contact you. If DOE                      electronically should be provided in                  of proposed rulemaking.
                                                    cannot read your comment due to                         PDF (preferred), Microsoft Word or                    List of Subjects
                                                    technical difficulties and cannot contact               Excel, WordPerfect, or text (ASCII) file
                                                    you for clarification, DOE may not be                   format. Provide documents that are not                10 CFR Part 429
                                                    able to consider your comment.                          secured, written in English and free of                 Confidential business information,
                                                       However, your contact information                    any defects or viruses. Documents                     Energy conservation, Household
                                                    will be publicly viewable if you include                should not contain special characters or              appliances, Imports, Incorporation by
                                                    it in the comment or in any documents                   any form of encryption and, if possible,              reference, Reporting and recordkeeping
                                                    attached to your comment. Any                           they should carry the electronic                      requirements.
                                                    information that you do not want to be                  signature of the author.
                                                    publicly viewable should not be                            Campaign form letters. Please submit               10 CFR Part 430
                                                    included in your comment, nor in any                    campaign form letters by the originating
                                                                                                                                                                    Administrative practice and
                                                    document attached to your comment.                      organization in batches of between 50 to
                                                                                                                                                                  procedure, Confidential business
                                                    Persons viewing comments will see only                  500 form letters per PDF or as one form
                                                                                                                                                                  information, Energy conservation,
                                                    first and last names, organization                      letter with a list of supporters&rsquo; names
                                                                                                                                                                  Household appliances, Imports,
                                                    names, correspondence containing                        compiled into one or more PDFs. This
                                                                                                                                                                  Incorporation by reference,
                                                    comments, and any documents                             reduces comment processing and
                                                                                                                                                                  Intergovernmental relations, Small
                                                    submitted with the comments.                            posting time.
                                                       Do not submit to www.regulations.gov                    Confidential Business Information.                 businesses.
                                                    information for which disclosure is                     According to 10 CFR 1004.11, any                        Issued in Washington, DC, on November
                                                    restricted by statute, such as trade                    person submitting information that he                 17, 2015.
                                                    secrets and commercial or financial                     or she believes to be confidential and                Kathleen B. Hogan,
                                                    information (hereinafter referred to as                 exempt by law from public disclosure                  Deputy Assistant Secretary for Energy
                                                    Confidential Business Information                       should submit via email, postal mail, or              Efficiency, Energy Efficiency and Renewable
                                                    (CBI)). Comments submitted through                      hand delivery two well-marked copies:                 Energy.
                                                    regulations.gov cannot be claimed as                    one copy of the document marked                         For the reasons stated in the
                                                    CBI. Comments received through the                      confidential including all the                        preamble, DOE proposes to amend parts
                                                    Web site will waive any CBI claims for                  information believed to be confidential,              429 and 430 of Chapter II of Title 10,
                                                    the information submitted. For                          and one copy of the document marked                   Code of Federal Regulations as set forth
                                                    information on submitting CBI, see the                  non-confidential with the information                 below:
                                                    Confidential Business Information                       believed to be confidential deleted.
                                                    section.                                                Submit these documents via email or on                PART 429&mdash;CERTIFICATION,
                                                       DOE processes submissions made                       a CD, if feasible. DOE will make its own              COMPLIANCE, AND ENFORCEMENT
                                                    through regulations.gov before posting.                 determination about the confidential                  FOR CONSUMER PRODUCTS AND
                                                    Normally, comments will be posted                       status of the information and treat it
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                                                                                                                                  COMMERCIAL AND INDUSTRIAL
                                                    within a few days of being submitted.                   according to its determination.                       EQUIPMENT
                                                    However, if large volumes of comments                      Factors of interest to DOE when
                                                    are being processed simultaneously,                     evaluating requests to treat submitted                ■ 1. The authority citation for part 429
                                                    your comment may not be viewable for                    information as confidential include: (1)              continues to read as follows:
                                                    up to several weeks. Please keep the                    A description of the items; (2) whether                   Authority: 42 U.S.C. 6291&ndash;6317.
                                                    comment tracking number that                            and why such items are customarily
                                                    regulations.gov provides after you have                 treated as confidential within the                    ■ 2. Section 429.4 is amended by adding
                                                    successfully uploaded your comment.                     industry; (3) whether the information is              paragraph (b)(3) to read as follows:


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                                                    &sect; 429.4 Materials incorporated by                         (B) The lower 95 percent confidence                 ■   c. Revising paragraph (p)(4).
                                                    reference.                                              limit (LCL) of the true mean divided by                   The revisions read as follows:
                                                    *     *    *    *      *                                0.90:
                                                      (b) * * *                                                                                                   &sect; 430.3 Materials incorporated by
                                                      (3) AHAM PAC&ndash;1&ndash;2015, Portable Air                                                                           reference.
                                                    Conditioners, 2015, IBR approved for                                                                          *      *     *    *     *
                                                    &sect; 429.62.                                                                                                        (g) * * *
                                                    *     *    *    *      *                                Where:                                                   (4) ANSI/ASHRAE Standard 37&ndash;2009,
                                                    ■ 3. Add &sect; 429.62 to read as follows:                   x̄ is the sample mean;                                (&lsquo;&lsquo;ASHRAE 37&ndash;2009&rsquo;&rsquo;), Methods of
                                                                                                            s is the sample standard deviation;                   Testing for Rating Electrically Driven
                                                    &sect; 429.62   Portable air conditioners.                   n is the number of units in the test sample;          Unitary Air-Conditioning and Heat
                                                      (a) Sampling plan for selection of                          and                                             Pump Equipment, ANSI approved June
                                                    units for testing. (1) The requirements of              t0.95 is the t statistic for a 95% one-tailed         25, 2009, IBR approved for appendix
                                                    &sect; 429.11 are applicable to portable air                       confidence interval with n-1 degrees of
                                                                                                                  freedom.
                                                                                                                                                                  AA and CC to subpart B.
                                                    conditioners; and                                                                                             *      *     *    *     *
                                                      (2) For each basic model of portable                  And,
                                                                                                                                                                     (i) * * *
                                                    air conditioner, a sample of sufficient                    (3) The value of seasonally adjusted                  (8) AHAM PAC&ndash;1&ndash;2015, Portable Air
                                                    size shall be randomly selected and                     cooling capacity of a basic model shall               Conditioners, 2015, IBR approved for
                                                    tested to ensure that&mdash;                                  be the mean of the seasonally adjusted                appendix CC to subpart B.
                                                      (i) Any represented value of energy                   cooling capacities for each tested unit of
                                                    consumption or other measure of energy                                                                        *      *     *    *     *
                                                                                                            the basic model. Round the mean
                                                    consumption of a basic model for which                  capacity value to the nearest 50, 100,                   (p) * * *
                                                    consumers would favor lower values                      200, or 500 Btu/h, depending on the                      (4) IEC 62301 (&lsquo;&lsquo;IEC 62301&rsquo;&rsquo;),
                                                    shall be greater than or equal to the                   value being rounded, in accordance                    Household electrical appliances&mdash;
                                                    higher of:                                              with Table 1 of AHAM PAC&ndash;1&ndash;2015,                      Measurement of standby power,
                                                      (A) The mean of the sample:                           (incorporated by reference, see &sect; 429.4),             (Edition 2.0, 2011&ndash;01), IBR approved for
                                                                                                            &lsquo;&lsquo;Multiples for reporting Dual Duct                   appendices C1, D1, D2, G, H, I, J2, N, O,
                                                                                                            Cooling Capacity, Single Duct Cooling                 P, X, X1, Z and CC to subpart B.
                                                                                                            Capacity, Spot Cooling Capacity, Water                *      *     *    *     *
                                                                                                            Cooled Condenser Capacity and Power                   ■ 7. Section 430.23 is amended by
                                                                                                            Input Ratings.&rsquo;&rsquo;                                      adding paragraph (dd) to read as
                                                    Where:                                                     (4) Round the value of combined                    follows:
                                                    x̄ is the sample mean;                                  energy efficiency ratio of a basic model
                                                    xi is the ith sample; and                                                                                     &sect; 430.23 Test procedures for the
                                                                                                            to the nearest 0.1 Btu/Wh.                            measurement of energy and water
                                                    n is the number of units in the test sample.
                                                                                                               (b) Certification reports. [Reserved]              consumption.
                                                    Or,
                                                                                                            PART 430&mdash;ENERGY CONSERVATION                          *       *    *    *     *
                                                      (B) The upper 95 percent confidence
                                                                                                            PROGRAM FOR CONSUMER                                     (dd) Portable air conditioners. (1) For
                                                    limit (UCL) of the true mean divided by
                                                                                                            PRODUCTS                                              portable air conditioners, measure the
                                                    1.10:
                                                                                                                                                                  seasonally adjusted cooling capacity,
                                                                                                            ■ 4. The authority citation for part 430              expressed in British thermal units per
                                                                                                            continues to read as follows:                         hour (Btu/h), and the combined energy
                                                                                                              Authority: 42 U.S.C. 6291&ndash;6309; 28 U.S.C.           efficiency ratio, expressed in British
                                                    Where:                                                  2461 note.                                            thermal units per watt-hour (Btu/Wh) in
                                                    x̄ is the sample mean;                                  ■ 5. Section 430.2 is amended by adding               accordance with section 5 of appendix
                                                    s is the sample standard deviation;                     the definition of &lsquo;&lsquo;portable air                      CC of this subpart.
                                                    n is the number of units in the test sample;            conditioner&rsquo;&rsquo; in alphabetical order to                   (2) Determine the estimated annual
                                                          and                                               read as follows:                                      operating cost for portable air
                                                    t0.95 is the t statistic for a 95% one-tailed                                                                 conditioners, expressed in dollars per
                                                          confidence interval with n-1 degrees of           &sect; 430.2   Definitions.                                year, by multiplying the following two
                                                          freedom.                                                                                                factors:
                                                                                                            *      *     *    *     *
                                                    And,                                                       Portable air conditioner means an                     (i) For dual-duct portable air
                                                      (ii) Any represented value of the                     encased assembly, other than a                        conditioners, the sum of AEC95
                                                    combined energy efficiency ratio or                     &lsquo;&lsquo;packaged terminal air conditioner,&rsquo;&rsquo;                multiplied by 0.2, AEC83 multiplied by
                                                    other measure of energy consumption of                  &lsquo;&lsquo;room air conditioner,&rsquo;&rsquo; or                          0.8, and AECT as measured in                 EP27NO15.009&lt;/GPH&gt;


                                                    a basic model for which consumers                       &lsquo;&lsquo;dehumidifier,&rsquo;&rsquo; designed as a portable              accordance with section 5.3 of appendix
                                                    would favor higher values shall be less                 unit for delivering cooled, conditioned               CC of this subpart; or for single-duct
                                                    than or equal to the lower of:                          air to an enclosed space, that is powered             portable air conditioners, the sum of
                                                      (A) The mean of the sample:                           by single-phase electric current, and                 AECSD and AECT as measured in
                                                                                                                                                                                                               EP27NO15.008&lt;/GPH&gt;




                                                                                                            which may rest on the floor or other                  accordance with section 5.3 of appendix
                                                                                                            elevated surface. It includes a source of             CC of this subpart; and
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                                                                            refrigeration and may include additional                 (ii) A representative average unit cost
                                                                                                            means for air circulation and heating.                of electrical energy in dollars per
                                                                                                            *      *     *    *     *                             kilowatt-hour as provided by the
                                                                                                                                                                                                               EP27NO15.006&lt;/GPH&gt; EP27NO15.007&lt;/GPH&gt;




                                                    Where:                                                  ■ 6. Section 430.3 is amended by:                     Secretary.
                                                    x̄ is the sample mean;                                  ■ a. Revising paragraph (g)(4);                          (iii) Round the resulting product to
                                                    xi is the ith sample; and                               ■ b. Redesignating paragraph (i)(8) as                the nearest dollar per year.
                                                    n is the number of units in the test sample.            (i)(9), and adding a new paragraph (i)(8);            ■ 7. Add appendix CC to subpart B of
                                                    Or,                                                     and                                                   part 430 to read as follows:


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		>
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                                        width="1275" height="1651" alt="                                                                          Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules                                             74035

                                                    &sect; 429.4 Materials incorporated by                         (B) The lower 95 percent confidence                 ■   c. Revising paragraph (p)(4).
                                                    reference.                                              limit (LCL) of the true mean divided by                   The revisions read as follows:
                                                    *     *    *    *      *                                0.90:
                                                      (b) * * *                                                                                                   &sect; 430.3 Materials incorporated by
                                                      (3) AHAM PAC&ndash;1&ndash;2015, Portable Air                                                                           reference.
                                                    Conditioners, 2015, IBR approved for                                                                          *      *     *    *     *
                                                    &sect; 429.62.                                                                                                        (g) * * *
                                                    *     *    *    *      *                                Where:                                                   (4) ANSI/ASHRAE Standard 37&ndash;2009,
                                                    ■ 3. Add &sect; 429.62 to read as follows:                   x̄ is the sample mean;                                (&lsquo;&lsquo;ASHRAE 37&ndash;2009&rsquo;&rsquo;), Methods of
                                                                                                            s is the sample standard deviation;                   Testing for Rating Electrically Driven
                                                    &sect; 429.62   Portable air conditioners.                   n is the number of units in the test sample;          Unitary Air-Conditioning and Heat
                                                      (a) Sampling plan for selection of                          and                                             Pump Equipment, ANSI approved June
                                                    units for testing. (1) The requirements of              t0.95 is the t statistic for a 95% one-tailed         25, 2009, IBR approved for appendix
                                                    &sect; 429.11 are applicable to portable air                       confidence interval with n-1 degrees of
                                                                                                                  freedom.
                                                                                                                                                                  AA and CC to subpart B.
                                                    conditioners; and                                                                                             *      *     *    *     *
                                                      (2) For each basic model of portable                  And,
                                                                                                                                                                     (i) * * *
                                                    air conditioner, a sample of sufficient                    (3) The value of seasonally adjusted                  (8) AHAM PAC&ndash;1&ndash;2015, Portable Air
                                                    size shall be randomly selected and                     cooling capacity of a basic model shall               Conditioners, 2015, IBR approved for
                                                    tested to ensure that&mdash;                                  be the mean of the seasonally adjusted                appendix CC to subpart B.
                                                      (i) Any represented value of energy                   cooling capacities for each tested unit of
                                                    consumption or other measure of energy                                                                        *      *     *    *     *
                                                                                                            the basic model. Round the mean
                                                    consumption of a basic model for which                  capacity value to the nearest 50, 100,                   (p) * * *
                                                    consumers would favor lower values                      200, or 500 Btu/h, depending on the                      (4) IEC 62301 (&lsquo;&lsquo;IEC 62301&rsquo;&rsquo;),
                                                    shall be greater than or equal to the                   value being rounded, in accordance                    Household electrical appliances&mdash;
                                                    higher of:                                              with Table 1 of AHAM PAC&ndash;1&ndash;2015,                      Measurement of standby power,
                                                      (A) The mean of the sample:                           (incorporated by reference, see &sect; 429.4),             (Edition 2.0, 2011&ndash;01), IBR approved for
                                                                                                            &lsquo;&lsquo;Multiples for reporting Dual Duct                   appendices C1, D1, D2, G, H, I, J2, N, O,
                                                                                                            Cooling Capacity, Single Duct Cooling                 P, X, X1, Z and CC to subpart B.
                                                                                                            Capacity, Spot Cooling Capacity, Water                *      *     *    *     *
                                                                                                            Cooled Condenser Capacity and Power                   ■ 7. Section 430.23 is amended by
                                                                                                            Input Ratings.&rsquo;&rsquo;                                      adding paragraph (dd) to read as
                                                    Where:                                                     (4) Round the value of combined                    follows:
                                                    x̄ is the sample mean;                                  energy efficiency ratio of a basic model
                                                    xi is the ith sample; and                                                                                     &sect; 430.23 Test procedures for the
                                                                                                            to the nearest 0.1 Btu/Wh.                            measurement of energy and water
                                                    n is the number of units in the test sample.
                                                                                                               (b) Certification reports. [Reserved]              consumption.
                                                    Or,
                                                                                                            PART 430&mdash;ENERGY CONSERVATION                          *       *    *    *     *
                                                      (B) The upper 95 percent confidence
                                                                                                            PROGRAM FOR CONSUMER                                     (dd) Portable air conditioners. (1) For
                                                    limit (UCL) of the true mean divided by
                                                                                                            PRODUCTS                                              portable air conditioners, measure the
                                                    1.10:
                                                                                                                                                                  seasonally adjusted cooling capacity,
                                                                                                            ■ 4. The authority citation for part 430              expressed in British thermal units per
                                                                                                            continues to read as follows:                         hour (Btu/h), and the combined energy
                                                                                                              Authority: 42 U.S.C. 6291&ndash;6309; 28 U.S.C.           efficiency ratio, expressed in British
                                                    Where:                                                  2461 note.                                            thermal units per watt-hour (Btu/Wh) in
                                                    x̄ is the sample mean;                                  ■ 5. Section 430.2 is amended by adding               accordance with section 5 of appendix
                                                    s is the sample standard deviation;                     the definition of &lsquo;&lsquo;portable air                      CC of this subpart.
                                                    n is the number of units in the test sample;            conditioner&rsquo;&rsquo; in alphabetical order to                   (2) Determine the estimated annual
                                                          and                                               read as follows:                                      operating cost for portable air
                                                    t0.95 is the t statistic for a 95% one-tailed                                                                 conditioners, expressed in dollars per
                                                          confidence interval with n-1 degrees of           &sect; 430.2   Definitions.                                year, by multiplying the following two
                                                          freedom.                                                                                                factors:
                                                                                                            *      *     *    *     *
                                                    And,                                                       Portable air conditioner means an                     (i) For dual-duct portable air
                                                      (ii) Any represented value of the                     encased assembly, other than a                        conditioners, the sum of AEC95
                                                    combined energy efficiency ratio or                     &lsquo;&lsquo;packaged terminal air conditioner,&rsquo;&rsquo;                multiplied by 0.2, AEC83 multiplied by
                                                    other measure of energy consumption of                  &lsquo;&lsquo;room air conditioner,&rsquo;&rsquo; or                          0.8, and AECT as measured in                 EP27NO15.009&lt;/GPH&gt;


                                                    a basic model for which consumers                       &lsquo;&lsquo;dehumidifier,&rsquo;&rsquo; designed as a portable              accordance with section 5.3 of appendix
                                                    would favor higher values shall be less                 unit for delivering cooled, conditioned               CC of this subpart; or for single-duct
                                                    than or equal to the lower of:                          air to an enclosed space, that is powered             portable air conditioners, the sum of
                                                      (A) The mean of the sample:                           by single-phase electric current, and                 AECSD and AECT as measured in
                                                                                                                                                                                                               EP27NO15.008&lt;/GPH&gt;




                                                                                                            which may rest on the floor or other                  accordance with section 5.3 of appendix
                                                                                                            elevated surface. It includes a source of             CC of this subpart; and
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                                                                                                            refrigeration and may include additional                 (ii) A representative average unit cost
                                                                                                            means for air circulation and heating.                of electrical energy in dollars per
                                                                                                            *      *     *    *     *                             kilowatt-hour as provided by the
                                                                                                                                                                                                               EP27NO15.006&lt;/GPH&gt; EP27NO15.007&lt;/GPH&gt;




                                                    Where:                                                  ■ 6. Section 430.3 is amended by:                     Secretary.
                                                    x̄ is the sample mean;                                  ■ a. Revising paragraph (g)(4);                          (iii) Round the resulting product to
                                                    xi is the ith sample; and                               ■ b. Redesignating paragraph (i)(8) as                the nearest dollar per year.
                                                    n is the number of units in the test sample.            (i)(9), and adding a new paragraph (i)(8);            ■ 7. Add appendix CC to subpart B of
                                                    Or,                                                     and                                                   part 430 to read as follows:


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                                                    Appendix CC to Subpart B of Part 430&mdash;                      2.9 Single-duct portable air conditioner           cooling mode operation, then test the
                                                    Uniform Test Method for Measuring the                   means a portable air conditioner that draws           portable air conditioner with the condensate
                                                    Energy Consumption of Portable Air                      all of the condenser inlet air from the               pump enabled. For units tested with a
                                                                                                            conditioned space without the means of a              condensate pump, apply the provisions in
                                                    Conditioners                                            duct, and discharges the condenser outlet air         Section 7.1.2 of AHAM PAC&ndash;1&ndash;2015
                                                    1. Scope                                                outside the conditioned space through a               (incorporated by reference; see &sect; 430.3) if the
                                                       This appendix covers the test requirements           single duct.                                          pump cycles on and off.
                                                    used to measure the energy performance of                  2.10 Spot cooler means a portable air                 3.1.1.4 Unit Placement. There shall be no
                                                    single-duct and dual-duct portable air                  conditioner that draws condenser inlet air            less than 3 feet between any test chamber
                                                    conditioners. It does not contain testing               from and discharges condenser outlet air to           wall surface and any surface on the portable
                                                    provisions for measuring the energy                     the conditioned space, and draws evaporator           air conditioner, except the surface or surfaces
                                                    performance of spot coolers at this time.               inlet air from and discharges evaporator              of the portable air conditioner that include a
                                                                                                            outlet air to a localized zone within the             duct attachment. The distance between the
                                                    2. Definitions                                          conditioned space.                                    test chamber wall and a surface with one or
                                                       2.1 AHAM PAC&ndash;1 means the test                           2.11 Standby mode means any mode                   more duct attachments is prescribed by the
                                                    standard published by the Association of                where a portable air conditioner is connected         test setup requirements in Section 7.3.7 of
                                                    Home Appliance Manufacturers, titled                    to a mains power source and offers one or             AHAM PAC&ndash;1&ndash;2015 (incorporated by
                                                    &lsquo;&lsquo;Portable Air Conditioners,&rsquo;&rsquo; AHAM PAC&ndash;1&ndash;              more of the following user-oriented or                reference; see &sect; 430.3).
                                                    2015 (incorporated by reference; see &sect; 430.3).          protective functions which may persist for an            3.1.1.5 Electrical supply. Maintain the
                                                       2.2 Combined energy efficiency ratio is              indefinite time:                                      input standard voltage at 115 V &plusmn;1 percent.
                                                    the energy efficiency of a portable air                    (1) To facilitate the activation of other          Test at the rated frequency, maintained
                                                    conditioner as measured in accordance with              modes (including activation or deactivation           within &plusmn;1 percent.
                                                    this test procedure in Btu per watt-hours               of cooling mode) by remote switch (including             3.1.1.6 Duct temperature measurements.
                                                    (Btu/Wh) and determined in section 5.4.                 remote control), internal sensor, or timer; or        Measure the surface temperatures of each
                                                       2.3 Cooling mode means a mode in which                  (2) Continuous functions, including                duct using four equally spaced
                                                    a portable air conditioner has activated the            information or status displays (including             thermocouples per duct, adhered to the outer
                                                    main cooling function according to the                  clocks) or sensor-based functions. A timer is         surface of the entire length of the duct.
                                                    thermostat or temperature sensor signal,                a continuous clock function (which may or             Temperature measurements must have an
                                                    including activating the refrigeration system           may not be associated with a display) that            error no greater than &plusmn;0.5 &deg;F over the range
                                                    or the fan or blower without activation of the          provides regular scheduled tasks (e.g.,               being measured.
                                                    refrigeration system.                                   switching) and that operates on a continuous             3.1.2 Control settings. Set the controls to
                                                       2.4 Dual-duct portable air conditioner               basis.                                                the lowest available temperature setpoint for
                                                    means a portable air conditioner that draws                                                                   cooling mode. If the portable air conditioner
                                                                                                            3. Test Apparatus and General Instructions            has a user-adjustable fan speed, select the
                                                    some or all of the condenser inlet air from
                                                    outside the conditioned space through a                    3.1 Active mode.                                   maximum fan speed setting. If the portable
                                                    duct, and may draw additional condenser                    3.1.1 Test conduct. The test apparatus             air conditioner has an automatic louver
                                                    inlet air from the conditioned space. The               and instructions for testing portable air             oscillation feature, disable that feature
                                                    condenser outlet air is discharged outside the          conditioners in cooling mode and off-cycle            throughout testing. If the louver oscillation
                                                    conditioned space by means of a separate                mode shall conform to the requirements                feature is included but there is no option to
                                                    duct. 2.6 IEC 62301 means the test standard             specified in Section 4, &lsquo;&lsquo;Definitions&rsquo;&rsquo; and           disable it, testing shall proceed with the
                                                    published by the International                          Section 7, &lsquo;&lsquo;Tests,&rsquo;&rsquo; of AHAM PAC&ndash;1&ndash;2015              louver oscillation enabled. If the portable air
                                                    Electrotechnical Commission, titled                     (incorporated by reference; see &sect; 430.3),             conditioner has adjustable louvers, position
                                                    &lsquo;&lsquo;Household electrical appliances&mdash;                      except as otherwise specified in this                 the louvers parallel with the airflow to
                                                    Measurement of standby power,&rsquo;&rsquo; Publication             appendix. Where applicable, measure duct              maximize air flow and minimize static
                                                    62301 (Edition 2.0 2011&ndash;01) (incorporated by            heat transfer and infiltration air heat transfer      pressure loss.
                                                    reference; see &sect; 430.3).                                according to section 4.1.1.1 and section                 3.1.3 Measurement resolution and
                                                       2.5 Inactive mode means a standby mode               4.1.1.2 of this appendix, respectively.               rounding. Record measurements at the
                                                    that facilitates the activation of an active               3.1.1.1 Duct setup. Use ducting                    resolution of the test instrumentation. Round
                                                    mode or off-cycle mode by remote switch                 components provided by the manufacturer,              the seasonally adjusted cooling capacity
                                                    (including remote control), internal sensor, or         including, where provided by the                      value in accordance with Table 1 of AHAM
                                                    timer, or that provides continuous status               manufacturer, ducts, connectors for attaching         PAC&ndash;1&ndash;2015 (incorporated by reference; see
                                                    display.                                                the duct(s) to the test unit, and window              &sect; 430.3). Round CEER as calculated in section
                                                       2.6 Off-cycle mode means a mode in                   mounting fixtures. Do not apply additional            5 of this appendix, to the nearest 0.1 Btu/Wh.
                                                    which a portable air conditioner:                       sealing or insulation.                                   3.2 Standby mode and off mode.
                                                       (1) Has cycled off its main cooling or                  3.1.1.2 Single-duct evaporator inlet test             3.2.1 Installation requirements. For the
                                                    heating function by thermostat or                       conditions. When testing single-duct portable         standby mode and off mode testing, install
                                                    temperature sensor signal;                              air conditioners, maintain the evaporator             the portable air conditioner in accordance
                                                       (2) May or may not operate its fan or                inlet dry-bulb temperature within a range of          with Section 5, Paragraph 5.2 of IEC 62301
                                                    blower; and                                             1.0 &deg;F with an average difference within              (incorporated by reference; see &sect; 430.3),
                                                       (3) Will reactivate the main function                0.3 &deg;F.                                               disregarding the provisions regarding
                                                    according to the thermostat or temperature                 3.1.1.3 Condensate Removal. Setup the              batteries and the determination,
                                                    sensor signal.                                          test unit in accordance with manufacturer             classification, and testing of relevant modes.
                                                       2.7 Off mode means a mode in which a                 instructions. If the unit has an auto-                   3.2.2 Electrical energy supply.
                                                    portable air conditioner is connected to a              evaporative feature, keep any provided drain             3.2.2.1 Electrical supply. For the standby
                                                    mains power source and is not providing any             plug installed as shipped and do not provide          mode and off mode testing, maintain the
                                                    active mode, off-cycle mode, or standby                 other means of condensate removal. If the             input standard voltage at 115 V &plusmn;1 percent.
                                                    mode function, and where the mode may                   internal condensate collection bucket fills           Maintain the electrical supply at the rated
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                    persist for an indefinite time. An indicator            during the test, halt the test, remove the drain      frequency &plusmn;1 percent.
                                                    that only shows the user that the portable air          plug, install a gravity drain line, and start the        3.2.2.2 Supply voltage waveform. For the
                                                    conditioner is in the off position is included          test from the beginning. If no auto-                  standby mode and off mode testing, maintain
                                                    within the classification of an off mode.               evaporative feature is available, remove the          the electrical supply voltage waveform
                                                       2.8 Seasonally adjusted cooling capacity             drain plug and install a gravity drain line. If       indicated in Section 4, Paragraph 4.3.2 of IEC
                                                    means a measure of the cooling, measured in             no auto-evaporative feature or gravity drain          62301 (incorporated by reference; see
                                                    Btu/h, provided to the indoor conditioned               is available and a condensate pump is                 &sect; 430.3).
                                                    space, measured under the specified ambient             included, or if the manufacturer specifies the           3.2.3 Standby mode and off mode
                                                    conditions.                                             use of an included condensate pump during             wattmeter. The wattmeter used to measure



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                                                    standby mode and off mode power                                               4. Test Measurement                                              in Table 1 of this appendix. For single-duct
                                                    consumption must meet the requirements                                          4.1 Cooling mode. Measure the indoor                           units, measure the indoor room cooling
                                                    specified in Section 4, Paragraph 4.4 of IEC                                                                                                   capacity, CapacitySD, and overall power
                                                                                                                                  room cooling capacity and overall power
                                                    62301 (incorporated by reference; see                                                                                                          input in cooling mode, PSD, in accordance
                                                                                                                                  input in cooling mode in accordance with
                                                    &sect; 430.3).                                                                                                                                      with the ambient conditions for test
                                                                                                                                  Section 7.1.b and 7.1.c of AHAM PAC&ndash;1&ndash;
                                                                                                                                                                                                   configuration 5, presented in Table 1 of this
                                                       3.2.4 Standby mode and off mode                                            2015 (incorporated by reference; see &sect; 430.3),                   appendix. For dual-duct units, measure the
                                                    ambient temperature. For standby mode and                                     respectively. The test duration shall be                         indoor room cooling capacity and overall
                                                    off mode testing, maintain room ambient air                                   determined in accordance with Section 8.7 of                     power input in accordance with ambient
                                                    temperature conditions as specified in                                        ASHRAE 37&ndash;2009 (incorporated by                                  conditions for test configuration 3, condition
                                                    Section 4, Paragraph 4.2 of IEC 62301                                         reference; &sect; 430.3). Substitute the test                         A (Capacity95, P95), and a second time in
                                                    (incorporated by reference; see &sect; 430.3).                                     conditions in Table 3 of AHAM PAC&ndash;1&ndash;2015                         accordance with the ambient conditions for
                                                                                                                                  with the test conditions for single-duct and                     test configuration 3, condition B (Capacity83,
                                                                                                                                  dual-duct portable air conditioners presented                    P83), presented in Table 1 of this appendix.

                                                                                                        TABLE 1&mdash;EVAPORATOR AND CONDENSER INLET TEST CONDITIONS
                                                                                                                                                                                 Evaporator inlet air, &deg;F (&deg;C)       Condenser inlet air, &deg;F (&deg;C)
                                                                                                  Test configuration
                                                                                                                                                                                  Dry bulb         Wet bulb           Dry bulb         Wet bulb

                                                    3 (Condition A) .................................................................................................                 80 (26.7)        67 (19.4)         95 (35.0)        75 (23.9)
                                                    3 (Condition B) .................................................................................................                 80 (26.7)        67 (19.4)         83 (28.3)      67.5 (19.7)
                                                    5 .......................................................................................................................         80 (26.7)        67 (19.4)         80 (26.7)       67 (19.4)


                                                      4.1.1. Duct Heat Transfer. Measure the                                         For dual-duct portable air conditioners:                           test condition in Table 1 of this
                                                    surface temperature of the condenser exhaust                                    Qduct_95=&egrave;j{h&times;Aduct_j&times;(Tduct_95_j&yen;Tei)}                             appendix, in &deg;F.
                                                    duct and condenser inlet duct, where                                            Qduct_83=&egrave;j{h&times;Aduct_j&times;(Tduct_83_j&yen;Tei)}                        Tduct_95_j and Tduct_83_j = average surface
                                                    applicable, throughout the cooling mode test.                                                                                                       temperature for duct &lsquo;&lsquo;j&rsquo;&rsquo; of dual-duct
                                                    Calculate the average temperature at each                                     Where:                                                                portable air conditioners, as measured
                                                    individual location, and then calculate the                                   Qduct_SD = for single-duct portable air                               during testing according to the two
                                                    average surface temperature of each duct by                                        conditioners, the total heat transferred
                                                                                                                                                                                                        outdoor test conditions in Table 1 of this
                                                                                                                                       from the duct to the indoor conditioned
                                                    averaging the four average temperature                                                                                                              appendix, in &deg;F.
                                                                                                                                       space in cooling mode when tested
                                                    measurements taken on that duct. Calculate                                                                                                     j represents the condenser exhaust duct and,
                                                                                                                                       according to the test conditions in Table
                                                    the surface area (Aduct_j) of each duct                                                                                                             for dual-duct units, condenser inlet duct.
                                                                                                                                       1 of this appendix, in Btu/h.
                                                    according to the following:                                                                                                                    Tei = average evaporator inlet air dry-bulb
                                                                                                                                  Qduct_95 and Qduct_83 = for dual-duct portable
                                                      Aduct_j = p &times; dj &times; Lj                                                                                                                             temperature, in &deg;F.
                                                                                                                                       air conditioners, the total heat
                                                    Where:                                                                             transferred from the ducts to the indoor                      4.1.2 Infiltration Air Heat Transfer.
                                                    dj = the outer diameter of duct &lsquo;&lsquo;j&rsquo;&rsquo;.                                             conditioned space in cooling mode when                      Measure the heat contribution from
                                                    Lj = the extended length of duct &lsquo;&lsquo;j&rsquo;&rsquo; while                                       tested according to the 95 &deg;F dry-bulb                      infiltration air for single-duct portable air
                                                         under test.                                                                   and 83 &deg;F dry-bulb outdoor test                             conditioners and dual-duct portable air
                                                    j represents the condenser exhaust duct and,                                       conditions in Table 1 of this appendix,                     conditioners that draw at least part of the
                                                         for dual-duct units, condenser inlet duct.                                    in Btu/h.                                                   condenser air from the conditioned space.
                                                                                                                                  h = convection coefficient, 4 Btu/h per square                   Calculate the heat contribution from
                                                      Calculate the total heat transferred from the                                    foot per &deg;F.                                                infiltration air for single-duct and dual-duct
                                                    surface of the duct(s) to the indoor                                          Aduct_j = surface area of duct &lsquo;&lsquo;j&rsquo;&rsquo;, in square                  portable air conditioners for both cooling
                                                    conditioned space while operating in cooling                                       feet.                                                       mode outdoor test conditions, as described in
                                                    mode for the outdoor test conditions in Table                                 Tduct_SD_j = average surface temperature for                     this section. The dry air mass flow rate of
                                                    1 of this appendix, as follows. For single-duct                                    the condenser exhaust duct of single-                       infiltration air shall be calculated according
                                                    portable air conditioners:                                                         duct portable air conditioners, as                          to the following equations. For single-duct
                                                    Qduct_SD = h&times;Aduct_j&times;(Tduct_SD_j&yen;Tei)                                              measured during testing according to the                    portable air conditioners:




                                                       For dual-duct portable air conditioners:
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                                                                                                                                                                                                                      EP27NO15.010&lt;/GPH&gt; EP27NO15.011&lt;/GPH&gt;




                                               VerDate Sep&lt;11&gt;2014          18:05 Nov 25, 2015          Jkt 238001       PO 00000        Frm 00034        Fmt 4702        Sfmt 4702   E:\FR\FM\27NOP1.SGM   27NOP1"
		>
                                        <img src="https://pdf.cab/1.png" class="pdfcab_responsive" style="background:url(https://thefederalregister.org/doc/80_FR_74248/page/18.png);"
                                        width="1275" height="1651" alt="                                                                                   Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules                                                                        74037

                                                    standby mode and off mode power                                               4. Test Measurement                                              in Table 1 of this appendix. For single-duct
                                                    consumption must meet the requirements                                          4.1 Cooling mode. Measure the indoor                           units, measure the indoor room cooling
                                                    specified in Section 4, Paragraph 4.4 of IEC                                                                                                   capacity, CapacitySD, and overall power
                                                                                                                                  room cooling capacity and overall power
                                                    62301 (incorporated by reference; see                                                                                                          input in cooling mode, PSD, in accordance
                                                                                                                                  input in cooling mode in accordance with
                                                    &sect; 430.3).                                                                                                                                      with the ambient conditions for test
                                                                                                                                  Section 7.1.b and 7.1.c of AHAM PAC&ndash;1&ndash;
                                                                                                                                                                                                   configuration 5, presented in Table 1 of this
                                                       3.2.4 Standby mode and off mode                                            2015 (incorporated by reference; see &sect; 430.3),                   appendix. For dual-duct units, measure the
                                                    ambient temperature. For standby mode and                                     respectively. The test duration shall be                         indoor room cooling capacity and overall
                                                    off mode testing, maintain room ambient air                                   determined in accordance with Section 8.7 of                     power input in accordance with ambient
                                                    temperature conditions as specified in                                        ASHRAE 37&ndash;2009 (incorporated by                                  conditions for test configuration 3, condition
                                                    Section 4, Paragraph 4.2 of IEC 62301                                         reference; &sect; 430.3). Substitute the test                         A (Capacity95, P95), and a second time in
                                                    (incorporated by reference; see &sect; 430.3).                                     conditions in Table 3 of AHAM PAC&ndash;1&ndash;2015                         accordance with the ambient conditions for
                                                                                                                                  with the test conditions for single-duct and                     test configuration 3, condition B (Capacity83,
                                                                                                                                  dual-duct portable air conditioners presented                    P83), presented in Table 1 of this appendix.

                                                                                                        TABLE 1&mdash;EVAPORATOR AND CONDENSER INLET TEST CONDITIONS
                                                                                                                                                                                 Evaporator inlet air, &deg;F (&deg;C)       Condenser inlet air, &deg;F (&deg;C)
                                                                                                  Test configuration
                                                                                                                                                                                  Dry bulb         Wet bulb           Dry bulb         Wet bulb

                                                    3 (Condition A) .................................................................................................                 80 (26.7)        67 (19.4)         95 (35.0)        75 (23.9)
                                                    3 (Condition B) .................................................................................................                 80 (26.7)        67 (19.4)         83 (28.3)      67.5 (19.7)
                                                    5 .......................................................................................................................         80 (26.7)        67 (19.4)         80 (26.7)       67 (19.4)


                                                      4.1.1. Duct Heat Transfer. Measure the                                         For dual-duct portable air conditioners:                           test condition in Table 1 of this
                                                    surface temperature of the condenser exhaust                                    Qduct_95=&egrave;j{h&times;Aduct_j&times;(Tduct_95_j&yen;Tei)}                             appendix, in &deg;F.
                                                    duct and condenser inlet duct, where                                            Qduct_83=&egrave;j{h&times;Aduct_j&times;(Tduct_83_j&yen;Tei)}                        Tduct_95_j and Tduct_83_j = average surface
                                                    applicable, throughout the cooling mode test.                                                                                                       temperature for duct &lsquo;&lsquo;j&rsquo;&rsquo; of dual-duct
                                                    Calculate the average temperature at each                                     Where:                                                                portable air conditioners, as measured
                                                    individual location, and then calculate the                                   Qduct_SD = for single-duct portable air                               during testing according to the two
                                                    average surface temperature of each duct by                                        conditioners, the total heat transferred
                                                                                                                                                                                                        outdoor test conditions in Table 1 of this
                                                                                                                                       from the duct to the indoor conditioned
                                                    averaging the four average temperature                                                                                                              appendix, in &deg;F.
                                                                                                                                       space in cooling mode when tested
                                                    measurements taken on that duct. Calculate                                                                                                     j represents the condenser exhaust duct and,
                                                                                                                                       according to the test conditions in Table
                                                    the surface area (Aduct_j) of each duct                                                                                                             for dual-duct units, condenser inlet duct.
                                                                                                                                       1 of this appendix, in Btu/h.
                                                    according to the following:                                                                                                                    Tei = average evaporator inlet air dry-bulb
                                                                                                                                  Qduct_95 and Qduct_83 = for dual-duct portable
                                                      Aduct_j = p &times; dj &times; Lj                                                                                                                             temperature, in &deg;F.
                                                                                                                                       air conditioners, the total heat
                                                    Where:                                                                             transferred from the ducts to the indoor                      4.1.2 Infiltration Air Heat Transfer.
                                                    dj = the outer diameter of duct &lsquo;&lsquo;j&rsquo;&rsquo;.                                             conditioned space in cooling mode when                      Measure the heat contribution from
                                                    Lj = the extended length of duct &lsquo;&lsquo;j&rsquo;&rsquo; while                                       tested according to the 95 &deg;F dry-bulb                      infiltration air for single-duct portable air
                                                         under test.                                                                   and 83 &deg;F dry-bulb outdoor test                             conditioners and dual-duct portable air
                                                    j represents the condenser exhaust duct and,                                       conditions in Table 1 of this appendix,                     conditioners that draw at least part of the
                                                         for dual-duct units, condenser inlet duct.                                    in Btu/h.                                                   condenser air from the conditioned space.
                                                                                                                                  h = convection coefficient, 4 Btu/h per square                   Calculate the heat contribution from
                                                      Calculate the total heat transferred from the                                    foot per &deg;F.                                                infiltration air for single-duct and dual-duct
                                                    surface of the duct(s) to the indoor                                          Aduct_j = surface area of duct &lsquo;&lsquo;j&rsquo;&rsquo;, in square                  portable air conditioners for both cooling
                                                    conditioned space while operating in cooling                                       feet.                                                       mode outdoor test conditions, as described in
                                                    mode for the outdoor test conditions in Table                                 Tduct_SD_j = average surface temperature for                     this section. The dry air mass flow rate of
                                                    1 of this appendix, as follows. For single-duct                                    the condenser exhaust duct of single-                       infiltration air shall be calculated according
                                                    portable air conditioners:                                                         duct portable air conditioners, as                          to the following equations. For single-duct
                                                    Qduct_SD = h&times;Aduct_j&times;(Tduct_SD_j&yen;Tei)                                              measured during testing according to the                    portable air conditioners:




                                                       For dual-duct portable air conditioners:
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                                                                                                                                                                                                                      EP27NO15.010&lt;/GPH&gt; EP27NO15.011&lt;/GPH&gt;




                                               VerDate Sep&lt;11&gt;2014          18:05 Nov 25, 2015          Jkt 238001       PO 00000        Frm 00034        Fmt 4702        Sfmt 4702   E:\FR\FM\27NOP1.SGM   27NOP1" />
                                </object></div><hr /><br/><div id="19"><img id="page_19"  class="pdfcab_responsive" src="https://thefederalregister.org/doc/80_FR_74248/page/19.svg" style="width:612px;height:792px"
				onerror="this.src='https://thefederalregister.org/doc/80_FR_74248/page/19.png'; this.onerror=null" alt="                                                    74038                 Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules

                                                    Where:                                                        in Table 1 of this appendix, 95 &deg;F and          period shall be 2 hours in duration,
                                                    ṁSD = dry air mass flow rate of infiltration                 83 &deg;F, respectively.                            during which the power consumption is
                                                          air for single-duct portable air                  w ia_95 and w ia_83 = humidity ratios of the 95       recorded at the same intervals as
                                                          conditioners, in pounds per minute (lb/                 &deg;F and 83 &deg;F dry-bulb infiltration air,         recorded for cooling mode testing.
                                                          m).                                                     0.0141 and 0.01086 lbw/lbda,
                                                       ṁ95 and ṁ83 = dry air mass flow rate of                  respectively.
                                                                                                                                                                  Measure and record the average off-
                                                    infiltration air for dual-duct portable air             w indoor = humidity ratio of the indoor               cycle mode power of the portable air
                                                    conditioners, as calculated based on testing                  chamber air, 0.0112 lbw/lbda.                   conditioner, Poc, in watts.
                                                    according to the test conditions in Table 1 of             60 = conversion factor from minutes to                4.3 Standby mode and off mode.
                                                    this appendix, in lb/m.                                 hours.                                                Establish the testing conditions set forth
                                                       Vco_SD, Vco_95, and Vco_83 = average                                                                       in section 3.2 of this appendix, ensuring
                                                    volumetric flow rate of the condenser outlet               Calculate the latent heat contribution of the
                                                                                                            infiltration air according to the following:          that the portable air conditioner does
                                                    air during cooling mode testing for single-                                                                   not enter any active modes during the
                                                    duct portable air conditioners; and at the 95           Q l_95 = ṁ &times; 60 &times; Hfg &times; (w ia_95&yen;w indoor)
                                                    &deg;F and 83 &deg;F dry-bulb outdoor conditions for            Q l_83 = ṁ &times; 60 &times; Hfg &times; (w ia_83&yen;w indoor)           test. For portable air conditioners that
                                                    dual-duct portable air conditioners,                    Where:
                                                                                                                                                                  take some time to enter a stable state
                                                                                                                                                                  from a higher power state as discussed
                                                    respectively, in cubic feet per minute (cfm).           Q l_95 and Q l_83 = latent heat added to the
                                                       Vci_95, and Vci_83 = average volumetric flow               room by infiltration air, calculated at the
                                                                                                                                                                  in Section 5, Paragraph 5.1, Note 1 of
                                                    rate of the condenser inlet air during cooling                95 &deg;F and 83 &deg;F dry-bulb outdoor                IEC 62301, (incorporated by reference;
                                                    mode testing at the 95 &deg;F and 83 &deg;F dry-bulb                  conditions in Table 1 of this appendix,         see &sect; 430.3), allow sufficient time for the
                                                    outdoor conditions for dual-duct portable air                 in Btu/h.                                       portable air conditioner to reach the
                                                    conditioners, respectively, in cfm.                     ṁ = mass flow rate of infiltration air, ṁSD or      lowest power state before proceeding
                                                       rco_SD, rco_95, and rco_83 = average density               ṁ95 when calculating Ql,95 and ṁSD or         with the test measurement. Follow the
                                                    of the condenser outlet air during cooling                    ṁ83 when calculating Ql_83, in lb/m.           test procedure specified in Section 5,
                                                    mode testing for single-duct portable air               Hfg = latent heat of vaporization for water
                                                    conditioners, and at the 95 &deg;F and 83 &deg;F dry-
                                                                                                                                                                  Paragraph 5.3.2 of IEC 62301 for testing
                                                                                                                  vapor, 1061 Btu/lbm.                            in each possible mode as described in
                                                    bulb outdoor conditions for dual-duct                   w ia_95 and w ia_83 = humidity ratios of the 95
                                                    portable air conditioners, respectively, in                   &deg;F and 83 &deg;F dry-bulb infiltration air,
                                                                                                                                                                  sections 4.3.1 and 4.3.2 of this
                                                    pounds mass per cubic foot (lbm/ft3).                         0.0141 and 0.01086 lbw/lbda,                    appendix.
                                                       rci_95, and rci_83 = average density of the                respectively.                                      4.3.1 If the portable air conditioner
                                                    condenser inlet air during cooling mode                 w indoor = humidity ratio of the indoor               has an inactive mode, as defined in
                                                    testing at the 95 &deg;F and 83 &deg;F dry-bulb                       chamber air, 0.0112 lbw/lbda.                   section 2.5 of this appendix, but not an
                                                    outdoor conditions for dual-duct portable air           60 = conversion factor from minutes to hours.         off mode, as defined in section 2.7 of
                                                    conditioners, respectively, in lbm/ft3.                                                                       this appendix, measure and record the
                                                       w co_SD, w co_95, and w co_83 = average                 The total heat contribution of the
                                                                                                            infiltration air is the sum of the sensible           average inactive mode power of the
                                                    humidity ratio of condenser outlet air during
                                                    cooling mode testing for single-duct portable           and latent heat:                                      portable air conditioner, Pia, in watts.
                                                    air conditioners, and at the 95 &deg;F and 83 &deg;F                                                                    4.3.2 If the portable air conditioner
                                                                                                            Q infiltration_95 = Q s_95 + Q l_95
                                                                                                                                                                  has an off mode, as defined in section
                                                    dry-bulb outdoor conditions for dual-duct               Q infiltration_83 = Q s_83 + Q l_83
                                                    portable air conditioners, respectively, in                                                                   2.7 of this appendix, measure and
                                                    pounds mass of water vapor per pounds mass              Where:                                                record the average off mode power of
                                                    of dry air (lbw/lbda).                                  Q infiltration_95 and Q infiltration_83 = total       the portable air conditioner, Pom, in
                                                       w ci_95, and w ci_83 = average humidity ratio              infiltration air heats in cooling               watts.
                                                    of condenser inlet air during cooling mode                    mode, calculated at the 95 &deg;F and               5. Calculation of Derived Results From
                                                    testing at the 95 &deg;F and 83 &deg;F dry-bulb                       83 &deg;F dry-bulb outdoor conditions
                                                    outdoor conditions for dual-duct portable air                                                                 Test Measurements
                                                    conditioners, respectively, in lbw/lbda.
                                                                                                                  in Table 1 of this appendix, in Btu/
                                                                                                                  h.                                                 5.1 Adjusted Cooling Capacity.
                                                       For single-duct and dual-duct portable air
                                                                                                            Q s_95 and Q s_83 = sensible heat added to            Calculate the adjusted cooling capacities
                                                    conditioners, calculate the sensible
                                                    component of infiltration air heat                            the room by infiltration air,                   for portable air conditioners, ACC95 and
                                                    contribution according to the following:                      calculated at the 95 &deg;F and 83 &deg;F               ACC83, expressed in Btu/h, according to
                                                    Qs_95 = ṁ &times; 60                                               dry-bulb outdoor conditions in                  the following equations. For single-duct
                                                    &times; [(cp_da &times; (Tia_95&yen;Tindoor)) + cp_wv &times; (w ia_95              Table 1 of this appendix, in Btu/h.             portable air conditioners:
                                                          &times; Tia_95&yen;w indoor &times; Tindoor)]                     Q l_95 and Q l_83 = latent heat added to              ACC95 = CapacitySD &yen;
                                                    Qs_83 = ṁ &times; 60                                               the room by infiltration air,                         Q duct_SD&yen;Q infiltration_95
                                                    &times; [(cp_da &times; (Tia_83&yen;Tindoor)) + cp_wv &times; (w ia_83              calculated at the 95 &deg;F and 83 &deg;F               ACC83 = CapacitySD &yen;
                                                          &times; Tia_83&yen;w indoor &times; Tindoor)]                           dry-bulb outdoor conditions in                        Q duct_SD&yen;Q infiltration_83
                                                    Where:                                                        Table 1 of this appendix, in Btu/h.                For dual-duct portable air
                                                    Qs_95 and Qs_83 = sensible heat added to the                                                                  conditioners:
                                                                                                              4.2 Off-cycle mode. Establish the test
                                                         room by infiltration air, calculated at the                                                              ACC95 = Capacity95 &yen;
                                                         95 &deg;F and 83 &deg;F dry-bulb outdoor
                                                                                                            conditions specified in section 3.1.1 of
                                                                                                            this appendix for off-cycle mode, except                    Q duct_95&yen;Q infiltration_95
                                                         conditions in Table 1 of this appendix,
                                                                                                            that the duct measurements in section                 ACC83 = Capacity83 &yen;
                                                         in Btu/h.
                                                    ṁ = dry air mass flow rate of infiltration air,        3.1.1.6 shall not be used and the                           Q duct_83&yen;Q infiltration_83
                                                         ṁSD or ṁ95 when calculating Qs_95 and            wattmeter specified in section 3.2.3 of               Where:
                                                         ṁSD or ṁ83 when calculating Qs_83, in lb/        this appendix shall be used. Begin the
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                                                                                                                                  CapacitySD, Capacity95, and Capacity83 =
                                                         m.                                                 off-cycle mode test period 5 minutes                        cooling capacity measured in
                                                    cp_da = specific heat of dry air, 0.24 Btu/lbm&yen;         following the cooling mode test period.
                                                         &deg;F.
                                                                                                                                                                        section 4.1.1 of this appendix.
                                                    cp_wv = specific heat of water vapor, 0.444
                                                                                                            Adjust the setpoint higher than the                   Q duct_SD, Q duct_95, and Q duct_83 = duct
                                                         Btu/lbm&yen; &deg;F.
                                                                                                            ambient temperature to ensure the                           heat transfer while operating in
                                                    Tindoor = indoor chamber dry-bulb                       product will not enter cooling mode and                     cooling mode, calculated in section
                                                         temperature, 80 &deg;F.                                begin the test 5 minutes after the                          4.1.1.1 of this appendix.
                                                    Tia_95 and Tia_83 = infiltration air dry-bulb           compressor cycles off due to the change               Q infiltration_95 and Q infiltration_83 = total
                                                         temperatures for the two test conditions           in setpoint. The off-cycle mode test                        infiltration air heat transfer in


                                               VerDate Sep&lt;11&gt;2014   16:45 Nov 25, 2015   Jkt 238001   PO 00000   Frm 00035   Fmt 4702   Sfmt 4702   E:\FR\FM\27NOP1.SGM   27NOP1" /></div><hr /><br/><div id="20"><object id="page_20" type="image/svg+xml" class="pdfcab_responsive" data="https://thefederalregister.org/doc/80_FR_74248/page/20.svg" width="612" height="792"
onerror="this.src='https://thefederalregister.org/doc/80_FR_74248/page/20.png'; this.onerror=null;" alt="                                                                          Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules                                          74039

                                                         cooling mode, calculated in section                                                           Annual       t = number of annual operating time in
                                                         4.1.1.2 of this appendix.                                    Operating mode                  operating          each mode, in hours.
                                                                                                                                                        hours       k = 0.001 kWh/Wh conversion factor
                                                      5.2 Seasonally Adjusted Cooling
                                                    Capacity. Calculate the seasonally                      Cooling Mode, Single-Duct ...........               750      from watt-hours to kilowatt-hours.
                                                    adjusted cooling capacity for portable                  Off-Cycle .......................................   880    Total annual energy consumption in
                                                    air conditioners, SACC, expressed in                    Inactive or Off ...............................   1,355
                                                                                                                                                                    all modes except cooling, is calculated
                                                    Btu/h, according to the following:                        1 These operating mode hours are for the              according to the following:
                                                    SACC = ACC95 &times; 0.2 + ACC83 &times; 0.8                        purposes of calculating annual energy con-
                                                    Where:                                                  sumption under different ambient conditions AECT = &egrave;mAECm
                                                                                                            for dual-duct portable air conditioners, and are
                                                    ACC95 and ACC83 = adjusted cooling                      not a division of the total cooling mode oper-        Where:
                                                         capacity, in Btu/h, calculated in                  ating hours. The total dual-duct cooling mode         AECT = total annual energy
                                                         section 5.1 of this appendix.                      operating hours are 750 hours.                            consumption attributed to all
                                                    0.2 = weighting factor for ACC95.                   AECm = Pm &times; tm &times; k                                            modes except cooling, in kWh/year;
                                                    0.8 = weighting factor for ACC83.                                                                             AECm = total annual energy
                                                                                                        Where:
                                                      5.3 Annual Energy Consumption.                    AECm = annual energy consumption in                           consumption in each mode, in
                                                    Calculate the annual energy                             each mode, in kWh/year.                                   kWh/year.
                                                    consumption in each operating mode,                 Pm = average power in each mode, in                       m represents the operating modes
                                                    AECm, expressed in kilowatt-hours per                   watts.                                                    included in AECT (&lsquo;&lsquo;oc&rsquo;&rsquo; off-cycle,
                                                    year (kWh/year). The annual hours of                m represents the operating mode (&lsquo;&lsquo;95&rsquo;&rsquo;                       and &lsquo;&lsquo;im&rsquo;&rsquo; inactive or &lsquo;&lsquo;om&rsquo;&rsquo; off
                                                    operation in each mode are estimated as                 and &lsquo;&lsquo;83&rsquo;&rsquo; cooling mode at the 95 &deg;F                      mode).
                                                    follows:                                                and 83 &deg;F dry-bulb outdoor
                                                                                                            conditions, respectively for dual-                      5.4 Combined Energy Efficiency
                                                                                               Annual       duct portable air conditioners, &lsquo;&lsquo;SD&rsquo;&rsquo;                Ratio. Using the annual operating hours,
                                                              Operating mode                  operating
                                                                                                hours       cooling mode for single-duct                          as outlined in section 5.3 of this
                                                                                                            portable air conditioners, &lsquo;&lsquo;oc&rsquo;&rsquo; off-                appendix, calculate the combined
                                                    Cooling Mode, Dual-Duct 95 &deg;F 1                 750     cycle, and &lsquo;&lsquo;ia&rsquo;&rsquo; inactive or &lsquo;&lsquo;om&rsquo;&rsquo; off              energy efficiency ratio, CEER, expressed
                                                    Cooling Mode, Dual-Duct 83 &deg;F 1                 750     mode).                                                in Btu/Wh, according to the following:




                                                    Where:                                                       calculated in section 5.3 of this                DEPARTMENT OF TRANSPORTATION
                                                    CEERSD and CEERDD = combined energy                          appendix.
                                                       efficiency ratio for single-duct and                                                                       Federal Aviation Administration
                                                                                                            t = number of cooling mode hours per
                                                       dual-duct portable air conditioners,                      year, 750.
                                                       respectively, in Btu/Wh.                                                                                   14 CFR Part 39
                                                    ACC95 and ACC83 = adjusted cooling                      k = 0.001 kWh/Wh conversion factor for
                                                                                                                                                                  [Docket No. FAA&ndash;2015&ndash;5810; Directorate
                                                       capacity, tested at the 95 &deg;F and                         watt-hours to kilowatt-hours.
                                                                                                                                                                  Identifier 2014&ndash;NM&ndash;116&ndash;AD]
                                                       83 &deg;F dry-bulb outdoor conditions                    0.2 = weighting factor for the 95 &deg;F dry-
                                                       in Table 1 of this appendix, in Btu/                                                                       RIN 2120&ndash;AA64
                                                                                                                 bulb outdoor condition test.
                                                       h, calculated in section 5.1 of this                 0.8 = weighting factor for the 83 &deg;F dry-             Airworthiness Directives; Fokker
                                                       appendix.
                                                    AECSD = annual energy consumption in                         bulb outdoor condition test.                     Services B.V. Airplanes
                                                       cooling mode for single-duct                         [FR Doc. 2015&ndash;30057 Filed 11&ndash;25&ndash;15; 8:45 am]
                                                                                                                                                                  AGENCY: Federal Aviation
                                                       portable air conditioners, in kWh/                   BILLING CODE 6450&ndash;01&ndash;P                                Administration (FAA), DOT.
                                                       year, calculated in section 5.3 of                                                                         ACTION: Notice of proposed rulemaking
                                                       this appendix.                                                                                             (NPRM).
                                                    AEC95 and AEC83 = annual energy
                                                       consumption for the two cooling                                                                            SUMMARY:   We propose to adopt a new
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                       mode test conditions in Table 1 of                                                                         airworthiness directive (AD) for certain
                                                       this appendix for dual-duct portable                                                                       Fokker Services B.V. Model F.28 Mark
                                                       air conditioners, in kWh/year,                                                                             0070 and 0100 airplanes. This proposed
                                                       calculated in section 5.3 of this                                                                          AD was prompted by a design review
                                                       appendix.                                                                                                  that revealed that a wiring failure,
                                                    AECT = total annual energy                                                                                    external to the center wing fuel tank,
                                                       consumption attributed to all                                                                              could cause a hot short circuit to a
                                                                                                                                                                                                              EP27NO15.012&lt;/GPH&gt;




                                                       modes except cooling, in kWh/year,                                                                         maximum level sensor wire, and result


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		>
                                        <img src="https://pdf.cab/1.png" class="pdfcab_responsive" style="background:url(https://thefederalregister.org/doc/80_FR_74248/page/20.png);"
                                        width="1275" height="1651" alt="                                                                          Federal Register / Vol. 80, No. 228 / Friday, November 27, 2015 / Proposed Rules                                          74039

                                                         cooling mode, calculated in section                                                           Annual       t = number of annual operating time in
                                                         4.1.1.2 of this appendix.                                    Operating mode                  operating          each mode, in hours.
                                                                                                                                                        hours       k = 0.001 kWh/Wh conversion factor
                                                      5.2 Seasonally Adjusted Cooling
                                                    Capacity. Calculate the seasonally                      Cooling Mode, Single-Duct ...........               750      from watt-hours to kilowatt-hours.
                                                    adjusted cooling capacity for portable                  Off-Cycle .......................................   880    Total annual energy consumption in
                                                    air conditioners, SACC, expressed in                    Inactive or Off ...............................   1,355
                                                                                                                                                                    all modes except cooling, is calculated
                                                    Btu/h, according to the following:                        1 These operating mode hours are for the              according to the following:
                                                    SACC = ACC95 &times; 0.2 + ACC83 &times; 0.8                        purposes of calculating annual energy con-
                                                    Where:                                                  sumption under different ambient conditions AECT = &egrave;mAECm
                                                                                                            for dual-duct portable air conditioners, and are
                                                    ACC95 and ACC83 = adjusted cooling                      not a division of the total cooling mode oper-        Where:
                                                         capacity, in Btu/h, calculated in                  ating hours. The total dual-duct cooling mode         AECT = total annual energy
                                                         section 5.1 of this appendix.                      operating hours are 750 hours.                            consumption attributed to all
                                                    0.2 = weighting factor for ACC95.                   AECm = Pm &times; tm &times; k                                            modes except cooling, in kWh/year;
                                                    0.8 = weighting factor for ACC83.                                                                             AECm = total annual energy
                                                                                                        Where:
                                                      5.3 Annual Energy Consumption.                    AECm = annual energy consumption in                           consumption in each mode, in
                                                    Calculate the annual energy                             each mode, in kWh/year.                                   kWh/year.
                                                    consumption in each operating mode,                 Pm = average power in each mode, in                       m represents the operating modes
                                                    AECm, expressed in kilowatt-hours per                   watts.                                                    included in AECT (&lsquo;&lsquo;oc&rsquo;&rsquo; off-cycle,
                                                    year (kWh/year). The annual hours of                m represents the operating mode (&lsquo;&lsquo;95&rsquo;&rsquo;                       and &lsquo;&lsquo;im&rsquo;&rsquo; inactive or &lsquo;&lsquo;om&rsquo;&rsquo; off
                                                    operation in each mode are estimated as                 and &lsquo;&lsquo;83&rsquo;&rsquo; cooling mode at the 95 &deg;F                      mode).
                                                    follows:                                                and 83 &deg;F dry-bulb outdoor
                                                                                                            conditions, respectively for dual-                      5.4 Combined Energy Efficiency
                                                                                               Annual       duct portable air conditioners, &lsquo;&lsquo;SD&rsquo;&rsquo;                Ratio. Using the annual operating hours,
                                                              Operating mode                  operating
                                                                                                hours       cooling mode for single-duct                          as outlined in section 5.3 of this
                                                                                                            portable air conditioners, &lsquo;&lsquo;oc&rsquo;&rsquo; off-                appendix, calculate the combined
                                                    Cooling Mode, Dual-Duct 95 &deg;F 1                 750     cycle, and &lsquo;&lsquo;ia&rsquo;&rsquo; inactive or &lsquo;&lsquo;om&rsquo;&rsquo; off              energy efficiency ratio, CEER, expressed
                                                    Cooling Mode, Dual-Duct 83 &deg;F 1                 750     mode).                                                in Btu/Wh, according to the following:




                                                    Where:                                                       calculated in section 5.3 of this                DEPARTMENT OF TRANSPORTATION
                                                    CEERSD and CEERDD = combined energy                          appendix.
                                                       efficiency ratio for single-duct and                                                                       Federal Aviation Administration
                                                                                                            t = number of cooling mode hours per
                                                       dual-duct portable air conditioners,                      year, 750.
                                                       respectively, in Btu/Wh.                                                                                   14 CFR Part 39
                                                    ACC95 and ACC83 = adjusted cooling                      k = 0.001 kWh/Wh conversion factor for
                                                                                                                                                                  [Docket No. FAA&ndash;2015&ndash;5810; Directorate
                                                       capacity, tested at the 95 &deg;F and                         watt-hours to kilowatt-hours.
                                                                                                                                                                  Identifier 2014&ndash;NM&ndash;116&ndash;AD]
                                                       83 &deg;F dry-bulb outdoor conditions                    0.2 = weighting factor for the 95 &deg;F dry-
                                                       in Table 1 of this appendix, in Btu/                                                                       RIN 2120&ndash;AA64
                                                                                                                 bulb outdoor condition test.
                                                       h, calculated in section 5.1 of this                 0.8 = weighting factor for the 83 &deg;F dry-             Airworthiness Directives; Fokker
                                                       appendix.
                                                    AECSD = annual energy consumption in                         bulb outdoor condition test.                     Services B.V. Airplanes
                                                       cooling mode for single-duct                         [FR Doc. 2015&ndash;30057 Filed 11&ndash;25&ndash;15; 8:45 am]
                                                                                                                                                                  AGENCY: Federal Aviation
                                                       portable air conditioners, in kWh/                   BILLING CODE 6450&ndash;01&ndash;P                                Administration (FAA), DOT.
                                                       year, calculated in section 5.3 of                                                                         ACTION: Notice of proposed rulemaking
                                                       this appendix.                                                                                             (NPRM).
                                                    AEC95 and AEC83 = annual energy
                                                       consumption for the two cooling                                                                            SUMMARY:   We propose to adopt a new
mstockstill on DSK4VPTVN1PROD with PROPOSALS




                                                       mode test conditions in Table 1 of                                                                         airworthiness directive (AD) for certain
                                                       this appendix for dual-duct portable                                                                       Fokker Services B.V. Model F.28 Mark
                                                       air conditioners, in kWh/year,                                                                             0070 and 0100 airplanes. This proposed
                                                       calculated in section 5.3 of this                                                                          AD was prompted by a design review
                                                       appendix.                                                                                                  that revealed that a wiring failure,
                                                    AECT = total annual energy                                                                                    external to the center wing fuel tank,
                                                       consumption attributed to all                                                                              could cause a hot short circuit to a
                                                                                                                                                                                                              EP27NO15.012&lt;/GPH&gt;




                                                       modes except cooling, in kWh/year,                                                                         maximum level sensor wire, and result


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                                </object></div><hr /><br/><br />Document Created: 2015-12-14 14:05:51<br />Document Modified: 2015-12-14 14:05:51</div></div>
<table class=table><tr><td>Category</td><td><td>Regulatory Information</td></td></tr><tr><td>Collection</td><td><td>Federal Register</td></td></tr><tr><td>sudoc Class</td><td><td>AE 2.7:<br/>GS 4.107:<br/>AE 2.106:</td></td></tr><tr><td>Publisher</td><td><td>Office of the Federal Register, National Archives and Records Administration</td></td></tr><tr><td>Section</td><td><td>Proposed Rules</td></td></tr><tr><td>Action</td><td><td>Supplemental notice of proposed rulemaking.</td></td></tr><tr><td>Dates</td><td><td>DOE will accept comments, data, and information regarding this SNOPR, submitted no later than December 28, 2015. See section V, ``Public Participation,'' for details.</td></td></tr><tr><td>Contact</td><td><td>Mr. Bryan Berringer, U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, Building Technology Office, EE-5B, 1000 Independence Ave. SW., Washington, DC 20585-0121. Telephone: 202- 586-0371. Email: <a class="__cf_email__" data-cfemail="1d5f6f647c73335f786f6f74737a786f5d787833797278337a726b33" href="/cdn-cgi/l/email-protection">[email protected]</a> Ms. Sarah Butler, U.S. Department of Energy, Office of the General Counsel, Mailstop GC-33, 1000 Independence Ave. SW., Washington, DC 20585-0121. Telephone: 202-586-1777; Email: <a class="__cf_email__" data-cfemail="d586b4a7b4bdfb97a0a1b9b0a795bda4fbb1bab0fbb2baa3fb" href="/cdn-cgi/l/email-protection">[email protected]</a></td></td></tr><tr><td>FR Citation</td><td><td>80
                        FR
                        74020 </td></td></tr><tr><td>RIN Number</td><td><td>1904-AD22</td></td></tr><tr><td>CFR Citation</td><td><td>10
                                        CFR
                                    429<br/>10
                                        CFR
                                    430</td></td></tr>
</table>
</div><hr>
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