80 FR 37954 - Energy Conservation Program: Test Procedures for Conventional Ovens

DEPARTMENT OF ENERGY

Federal Register Volume 80, Issue 127 (July 2, 2015)

Page Range		37954-37970
FR Document		2015-15886

On December 3, 2014, the U.S. Department of Energy (DOE) issued a supplemental notice of proposed rulemaking (SNOPR) to amend the test procedures for conventional cooking products. The oven-related procedures proposed in that rulemaking serve as the basis for this final rule. As part of the SNOPR, DOE proposed to incorporate methods for measuring conventional oven volume, clarified that the existing oven test block must be used to test all ovens regardless of input rate, and proposed a method to measure the energy consumption of conventional ovens equipped with an oven separator. Additionally, DOE proposed technical corrections to the units of measurement in certain calculations. This final rule amends the current procedure to include the proposed changes listed above, as well as clarifications to certain definitions, that will take effect 30 days after the final rule publication date. These changes will be mandatory for product testing to demonstrate compliance with any new or amended energy conservation standards when they take effect and for representations of the energy consumption of conventional ovens starting 180 days after publication.

Federal Register, Volume 80 Issue 127 (Thursday, July 2, 2015)

[Federal Register Volume 80, Number 127 (Thursday, July 2, 2015)]
[Rules and Regulations]
[Pages 37954-37970]
From the Federal Register Online [www.thefederalregister.org]
[FR Doc No: 2015-15886]

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DEPARTMENT OF ENERGY

10 CFR Part 430

[Docket No. EERE-2012-BT-TP-0013]
RIN 1904-AC71

Energy Conservation Program: Test Procedures for Conventional
Ovens

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

ACTION: Final rule.

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SUMMARY: On December 3, 2014, the U.S. Department of Energy (DOE)
issued a supplemental notice of proposed rulemaking (SNOPR) to amend
the test procedures for conventional cooking products. The oven-related
procedures proposed in that rulemaking serve as the basis for this
final rule. As part of the SNOPR, DOE proposed to incorporate methods
for measuring conventional oven volume, clarified that the existing
oven test block must be used to test all ovens regardless of input
rate, and proposed a method to measure the energy consumption of
conventional ovens equipped with an oven separator. Additionally, DOE
proposed technical corrections to the units of measurement in certain
calculations. This final rule amends the current procedure to include
the proposed changes listed above, as well as clarifications to certain
definitions, that will take effect 30 days after the final rule
publication date. These changes will be mandatory for product testing
to demonstrate compliance with any new or amended energy conservation
standards when they take effect and for representations of the energy
consumption of conventional ovens starting 180 days after publication.

DATES: The effective date of this rule is August 3, 2015. The final
rule changes will be mandatory for product testing starting December
29, 2015. The incorporation by reference of certain publications listed
in this rule was approved by the Director of the Federal Register as of
August 3, 2015.

ADDRESSES: The docket, which includes Federal Register notices, public
meeting attendee lists and transcripts, comments, and other supporting
documents/materials, is available for review at regulations.gov. All
documents in the docket are listed in the regulations.gov 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: http://www.regulations.gov/#!docketDetail;D=EERE-2012-BT-TP-0013 . This Web
page will contain a link to the docket for this notice on the
regulations.gov site. The regulations.gov Web page will contain simple
instructions on how to access all documents, including public comments,
in the docket.
For further information on how to review the docket, contact Ms.
Brenda Edwards at (202) 586-2945 or by email:
Brenda.Edwards@ee.doe.gov.

FOR FURTHER INFORMATION CONTACT:
Ms. Ashley Armstrong, U.S. Department of Energy, Office of Energy
Efficiency and Renewable Energy, Building Technologies Office, EE-2J,
1000 Independence Avenue SW., Washington, DC, 20585-0121. Telephone:
(202) 586-6590. Email: ashley.armstrong@ee.doe.gov.
Ms. Celia Sher, U.S. Department of Energy, Office of the General
Counsel, GC-33, 1000 Independence Avenue SW., Washington, DC, 20585-
0121. Telephone: (202) 287-6122. Email: Celia.Sher@hq.doe.gov.

SUPPLEMENTARY INFORMATION: This final rule incorporates by reference
into part 430 the following industry standard:
AHAM OV-1-2011, (``AHAM OV-1''), Procedures for the Determination
and Expression of the Volume of Household Microwave and Conventional
Ovens, (2011).
Copies of AHAM standard can be purchased from the Association of
Home Appliance Manufacturers, 1111 19th Street NW., Suite 402,
Washington DC 20036, 202-872-5955, or www.aham.org.
This AHAM standard is discussed further in section III.D.

Table of Contents

I. Authority and Background
A. General Test Procedure Rulemaking Process
B. Test Procedures for Cooking Products
C. The January 2013 NOPR
D. The December 2014 SNOPR
E. Conventional Cooking Top Active Mode Test Procedures
II. Summary of the Final Rule
III. Discussion
IV. Procedural Issues and Regulatory Review
A. Review Under Executive Order 12866
B. Review Under the Regulatory Flexibility Act
C. Review Under the Paperwork Reduction Act of 1995
D. Review Under the National Environmental Policy Act of 1969
E. Review Under Executive Order 13132
F. Review Under Executive Order 12988
G. Review Under the Unfunded Mandates Reform Act of 1995
H. Review Under the Treasury and General Government
Appropriations Act, 1999
I. Review Under Executive Order 12630
J. Review Under Treasury and General Government Appropriations
Act, 2001
K. Review Under Executive Order 13211
L. Review Under Section 32 of the Federal Energy Administration
Act of 1974
M. Congressional Notification
N. Approval of the Office of the Secretary

I. Authority and Background

Title III of the Energy Policy and Conservation Act of 1975 (42
U.S.C. 6291, et seq.; ``EPCA'' or, ``the Act'') sets forth a variety of
provisions designed to improve energy efficiency. (All references to
EPCA refer to the statute as amended through the Energy Efficiency
Improvement Act of 2015, Public Law 114-11 (Apr. 30, 2015). Part B of
Title III, which for editorial reasons was redesignated as Part A upon
incorporation into the U.S. Code (42 U.S.C. 6291-6309, as codified),
establishes the ``Energy Conservation Program for Consumer Products
Other Than Automobiles.'' These include cooking products,\1\ and
specifically consumer conventional ovens, the subject of this document.
(42 U.S.C. 6292(a)(10))
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\1\ DOE's regulations define kitchen ranges and ovens, or
``cooking products'', as one of the following classes: Conventional
ranges, conventional cooking tops, conventional ovens, microwave
ovens, microwave/conventional ranges and other cooking products. (10
CFR 430.2) Based on this definition, DOE interprets kitchen ranges
and ovens to refer more generally to all types of cooking products
including, for example, microwave ovens.
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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

[[Page 37955]]

follow when prescribing or amending test procedures for covered
products. EPCA provides that any test procedures prescribed or amended
under this section 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 addition, if DOE determines that a test procedure amendment is
warranted, 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)) Finally, in any rulemaking to amend a test
procedure, DOE must determine to what extent, if any, the proposed test
procedure would alter the measured energy efficiency of any covered
product as determined under the existing test procedure. (42 U.S.C.
6293(e)(1))
This final rule fulfills, in part, DOE's obligation to periodically
review its test procedures under 42 U.S.C. 6293(b)(1)(A). DOE
anticipates that its next evaluation of this test procedure for
conventional ovens will occur in a manner consistent with the timeline
set out in this provision.

B. Test Procedures for Cooking Products

DOE's test procedures for conventional ranges, conventional cooking
tops, conventional ovens, and microwave ovens are codified at appendix
I to subpart B of Title 10 of the Code of Federal Regulations (CFR)
part 430 (Appendix I).
DOE established the test procedures in a final rule published in
the Federal Register on May 10, 1978. 43 FR 20108, 20120-20128. DOE
revised its test procedures for cooking products to more accurately
measure their efficiency and energy use, and published the revisions as
a final rule in 1997. 62 FR 51976 (Oct. 3, 1997). These test procedure
amendments included: (1) A reduction in the annual useful cooking
energy; (2) a reduction in the number of self-cleaning oven cycles per
year; and (3) incorporation of portions of International
Electrotechnical Commission (IEC) Standard 705-1988, ``Methods for
measuring the performance of microwave ovens for household and similar
purposes,'' and Amendment 2-1993 for the testing of microwave ovens.
Id. The test procedures for conventional cooking products establish
provisions for determining estimated annual operating cost, cooking
efficiency (defined as the ratio of cooking energy output to cooking
energy input), and energy factor (defined as the ratio of annual useful
cooking energy output to total annual energy input). 10 CFR 430.23(i);
Appendix I. These provisions for conventional cooking products are not
currently used for compliance with any energy conservation standards
because the present standards are design requirements, and there is not
an EnergyGuide \2\ labeling program for cooking products.
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\2\ For more information on the EnergyGuide labeling program,
see: www.access.thefederalregister.org/nara/cfr/waisidx_00/16cfr305_00.html.
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DOE subsequently conducted a rulemaking to address standby and off
mode energy consumption, as well as certain active mode testing
provisions, for dishwashers, dehumidifiers, and conventional cooking
products. DOE published a final rule on October 31, 2012 (77 FR 65942,
hereinafter referred to as the October 2012 Final Rule), adopting
standby and off mode provisions that satisfy the EPCA requirement that
DOE include measures of standby mode and off mode energy consumption in
its test procedures for residential products, if technically feasible.
(42 U.S.C.6295(gg)(2)(A))

C. The January 2013 NOPR

On January 30, 2013, DOE published a NOPR (78 FR 6232, hereinafter
referred to as the January 2013 NOPR) proposing amendments to Appendix
I that would allow for measuring the active mode energy consumption of
induction cooking products; i.e., conventional cooking tops and ranges
equipped with induction heating technology for one or more surface
units \3\ on the cooking top. DOE proposed to incorporate induction
cooking tops by amending the definition of ``conventional cooking top''
to include induction heating technology. Furthermore, DOE proposed to
require for all cooking tops the use of test equipment compatible with
induction technology. Specifically, DOE proposed to replace the solid
aluminum test blocks currently specified in the test procedure for
cooking tops with hybrid test blocks comprising two separate pieces: An
aluminum body and a stainless steel base. In the January 2013 NOPR, DOE
also proposed amendments to include a clarification that the test block
size be determined using the smallest dimension of the electric surface
unit. 78 FR 6232 (Jan. 30, 2013).
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\3\ The term surface unit refers to burners for gas cooking
tops, electric resistance heating elements for electric cooking
tops, and inductive heating elements for induction cooking tops.
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D. The December 2014 SNOPR

On December 3, 2014, DOE published a supplemental NOPR (SNOPR) (79
FR 71894, hereinafter referred to as the December 2014 SNOPR),
modifying its proposal from the January 2013 NOPR to more accurately
measure the energy efficiency of induction cooking tops. DOE proposed
to add a layer of thermal grease between the stainless steel base and
aluminum body of the hybrid test block to facilitate heat transfer
between the two pieces. DOE also proposed additional test equipment for
electric surface units with large diameters (both induction and
electric resistance) and gas cooking top burners with high input rates.
79 FR 71894 (Dec. 3, 2014). In addition, DOE proposed methods to test
non-circular electric surface units, electric surface units with
flexible concentric cooking zones, and full-surface induction cooking
tops. Id. Furthermore, DOE proposed to incorporate methods for
measuring conventional oven volume, clarify that the existing oven test
block must be used to test all ovens regardless of input rate, and
provide a method to measure the energy consumption and efficiency of
conventional ovens equipped with an oven separator. Id.

E. Conventional Cooking Top Active Mode Test Procedures

DOE received a number of comments from interested parties on the
cooking top active mode test procedure proposed in the December 2014
SNOPR. The majority of comments stated that additional analysis was
necessary before establishing a test procedure for conventional cooking
tops. AHAM requested an extension of the comment period for the
December 2014 SNOPR, citing the difficulty its members had procuring
the specified test equipment materials. Therefore, AHAM stated, many
manufacturers were not able to properly assess the new specifications,
testing variation, repeatability, and reproducibility of the proposed
test procedure before the comment period closed. (AHAM, No. 14 at p. 1)
\4\ AHAM also expressed concern with DOE's choice to pursue an
accelerated rulemaking schedule for cooking products, stating that the
rulemaking schedule did not allow for a thorough technical examination.
AHAM asked

[[Page 37956]]

DOE to seek additional input from interested parties on the December
2014 SNOPR and commented that the proposed cooking top test procedure
may result in technical problems. (AHAM, No. 18 at pp. 1-2)
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\4\ A notation in the form ``AHAM, No. 14 at p. 1'' identifies a
written comment (1) made by AHAM; (2) recorded in document number 14
that is filed in the docket of this cooking products test procedures
rulemaking (Docket No. EERE-2012-BT-TP-0013) and maintained in the
Resource Room of the Building Technologies Program; and (3) which
appears on page 1 of document number 14.
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BSH Home Appliances Corporation (BSH) and General Electric
Appliances (GE) stated that delays associated with acquiring the hybrid
test block materials necessitated additional time for them to evaluate
DOE's proposal. (BSH, No. 16 at p. 2; GE, No. 17 at p. 1) BSH commented
that the proposed hybrid test block method did not include certain
specifications necessary for test procedure reproducibility, such as
test load sizing and positioning, and recommended that DOE consider the
specifications in International Electrotechnical Commission (IEC)
Standard 60350-2 Edition 2, ``Household electric appliances--Part 2:
Hobs--Method for measuring performance'' (IEC Standard 60350-2). (BSH,
No. 16 at p. 1) Further, AHAM, BSH, and GE suggested that DOE specify
additional test block diameters because these commenters asserted that
the proposed test block sizes do not adequately reflect surface unit
sizes currently available on the market. (BSH, No. 16 at p. 5; GE, No.
17 at p 2; AHAM, No. 18 at p. 2)
Interested parties also expressed a significant number of concerns
with the use of thermal grease. GE noted that since receiving DOE's
proposal, it has not been able to replicate the DOE test results using
the methods described. (GE, No. 17 at p. 2) Specifically, GE observed
during its testing that the aluminum body slid off the stainless steel
base, the thermal grease dried out, and the amount of grease between
the blocks changed from one test to another. (GE, No. 17 at p. 2) AHAM,
BSH, and GE requested that DOE specify an operating temperature range
for the thermal grease as well as an application thickness, but also
noted that the thermal conductivity and viscosity of the grease may
change over time or after repeated use at high temperatures. (BSH, No.
16 at p. 11; GE, No. 17 at p. 2; AHAM, No. 18 at p. 3) GE further
commented that the variation introduced by the hybrid test block due to
the inability to reliably maintain the specified flatness, thermal
grease, and inadequate sizing, may be small individually, but
collectively result in a test procedure that cannot reliably discern
efficiency differences between similar products, alternate technology
options, and product classes. Thus, GE believes the proposal for
conventional cooking tops in the December 2014 SNOPR results in too
much variability to serve as the basis for establishing a standard.
(GE, No. 17 at p. 3)
The California IOUs also stated that they prefer an alternative to
the hybrid test block and recommended that DOE require water-heating
test methods to measure the cooking efficiency of conventional cooking
tops. Specifically, the California IOUs requested that DOE align the
residential cooking product test methods with existing industry test
procedures, such as American Society for Testing and Materials (ASTM)
standard F1521-12, Standard Test Methods for Performance of Range Tops,
and IEC Standard 60350-2, Household electric cooking appliances--Part
2: Hobs--Methods for measuring performance. (California IOUs, No. 19 at
p. 1) The California IOUs commented that they plan to conduct
additional testing to better characterize the differences between the
water-heating and hybrid test block test procedures, and will provide
these results to DOE. According to the California IOUs, the differences
in test procedure standard deviation between the hybrid test block and
water-heating test method as presented in the December 2014 SNOPR did
not sufficiently show that the hybrid test block method is more
repeatable than a water-heating method. (California IOUs, No. 19 at p.
2) Additionally, the California IOUs believe cooking efficiencies
derived using a water-heating test method are more representative of
the actual cooking performance of cooking tops as opposed to a test
procedure using hybrid test blocks, since many foods prepared on
cooktops have relatively high liquid content. (California IOUs, No. 19
at p. 1)
In February and March of 2015, DOE conducted a series of interviews
with manufacturers of conventional cooking products representing the
majority of the U.S. market to discuss key issues with the proposed
cooking top test procedure. Manufacturers agreed that the hybrid test
block method, as proposed, presented many issues which had not yet been
addressed, and which left the repeatability and reproducibility of the
test procedure in question. These concerns were similar to those
expressed in written comments but were received from a larger group of
manufacturers and included:
Difficulty obtaining the hybrid test block materials;
Difficulty obtaining and applying the thermal grease
without more detailed specifications (i.e., thermal conductivity alone
was not sufficient to identify a grease that performed according to
DOE's descriptions in the December 2014 SNOPR);
Difficulty testing induction cooking tops that use
different programming techniques to prevent overheating (some
manufacturers observed that power to the heating elements cut off
prematurely during testing with the hybrid test block even after adding
thermal grease); and
The need for larger test block sizes to test electric
surface units having 12-inch and 13-inch diameters and gas surface
units with high input rates.
Interviewed manufacturers that produce and sell products in Europe
uniformly supported the use of a water-heating test method and
harmonization with IEC Standard 60350-2 for measuring the energy
consumption of electric cooking tops. These manufacturers cited the
benefits of adopting a test method similar to the IEC water-heating
method as including: (1) Compatibility with all electric cooking top
types, (2) additional test vessel diameters to account for the variety
of surface unit sizes on the market, and (3) the test load's ability to
represent a real-world cooking top load.
After reviewing public comments and information received during
manufacturer interviews, as well as performing additional analyses, DOE
concluded that further study is required before a cooking top test
procedure can be established that produces test results which measure
energy use during a representative average use cycle, is repeatable and
reproducible, and is not unduly burdensome to conduct. For these
reasons, this final rule addresses test methods for conventional ovens
only, including conventional ovens that are a part of conventional
ranges. This final rule also addresses minor technical corrections to
existing calculations and definitions in Appendix I for both
conventional cooking tops and ovens.
DOE plans to address test procedures for cooking tops in a separate
rulemaking in order to consider any additional data and information
that will allow it to further conduct the analysis of cooking tops,
particularly when using a water-heating method to evaluate energy
consumption. As part of that rulemaking, DOE will carefully consider
and address remaining cooking top-related comments on the December 2014
SNOPR.

II. Summary of the Final Rule

This final rule amends the current DOE test procedure for
conventional ovens. These changes will primarily clarify the manner in
which to test for compliance with potential energy conservation
standards for conventional ovens. The final rule establishes that the
existing oven test block should be used to test all ovens, including
ovens having

[[Page 37957]]

input rates greater than 22,500 British thermal units per hour (Btu/h).
The final rule additionally amends the current DOE test procedure to
include test methods for conventional ovens equipped with an oven
separator. Conventional ovens equipped with an oven separator shall be
tested in each possible oven configuration (i.e., full oven cavity,
upper cavity, and lower cavity), with the results averaged.
Because Appendix I does not currently contain a measure of
conventional oven volume, the final rule incorporates by reference in
the DOE test procedure the relevant sections of AHAM Standard OV-1-2011
``Procedures for the Determination and Expression of the Volume of
Household Microwave and Conventional Ovens'' (AHAM-OV-1-2011) for
determining conventional oven cavity volume. As part of its rulemaking
that is considering amended standards for conventional ovens, DOE
proposed standards as a function of oven cavity volume.
Additionally, this final rule is clarifying the current definitions
for ``freestanding'' and ``built-in'' installation configurations.
Because the manufacturer instructions of some conventional ovens state
the oven can be used in either a freestanding or built-in
configuration, this final rule is clarifying that ovens with this
option be tested in the built-in configuration, as ovens designed to be
used in a built-in configuration incorporate fan-only mode for thermal
management, and the energy consumption of these products is likely
higher than for comparable ovens designed for use only in a
freestanding configuration. Furthermore, the final rule is clarifying
the term ``self-cleaning operation'' when referring to an oven's self-
cleaning process. The existing test procedure in Appendix I does not
include an explicit definition, although section 3 of Appendix I, Test
Methods and Measurements, requires measurement of self-cleaning
operation.
Finally, the final rule includes technical corrections to the
calculation of derived results from test measurements in section 4 of
Appendix I. Section 4 contains a number of references to incorrect
units of measurement and an incorrect value for the annual useful
cooking energy output for gas cooking tops. The final rule also
restores headings for sections 4.2 and 4.2.1 in Appendix I regarding
the calculations for conventional cooking tops, which were
inadvertently removed in the October 2012 Final Rule.

III. Discussion

A. Products Covered by This Test Procedure Rulemaking

As discussed in section I of this final rule, section 6292(a)(10)
of EPCA covers kitchen ranges and ovens, or ``cooking products.'' DOE's
regulations define ``cooking products'' as consumer products that are
used as the major household cooking appliances. They are designed to
cook or heat different types of food by one or more of the following
sources of heat: Gas, electricity, or microwave energy. Each model may
consist of a horizontal cooking top containing one or more surface
units \5\ and/or one or more heating compartments. Cooking products
include the following classes: Conventional ranges, conventional
cooking tops, conventional ovens, microwave ovens, microwave/
conventional ranges and other cooking products. (10 CFR 430.2) In this
final rule, DOE is addressing test procedures for conventional ovens.
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\5\ The term surface unit refers to burners for gas cooking
tops, electric resistance heating elements for electric cooking
tops, and inductive heating elements for induction cooking tops.
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DOE notes that conventional ranges are defined in 10 CFR 430.2 as a
class of kitchen ranges and ovens which is a household cooking
appliance, consisting of a conventional cooking top and one or more
conventional ovens. Because ranges consist of both a cooking top and at
least one oven, any potential cooking top energy conservation standard
or oven energy conservation standard would apply to each of these
cooking systems individually. Thus, the test procedures presented in
this final rule also apply to the oven portion of a conventional range.
As part of the previous energy conservation standards rulemaking
for conventional cooking products, DOE decided not to analyze
conventional gas cooking products with higher burner input rates,
including products marketed as ``commercial-style'' or ``professional-
style,'' in its consideration of energy conservation standards due to a
lack of available data for determining the efficiency characteristics
of those products. At the time, DOE considered commercial-style ovens
to be gas ovens with burner input rates greater than 22,500 Btu/h. 74
FR 16040, 16054 (Apr. 8, 2009); 72 FR 64432, 64444-64445 (Nov. 15,
2007). In the December 2014 SNOPR, DOE noted that the current
definitions for ``conventional oven'' and ``conventional range'' in 10
CFR 430.2 already cover conventional gas ovens with higher input rates
(including commercial-style gas ovens), as these products are household
cooking appliances with compartments intended for the cooking or
heating of food by means of a gas flame.
Sub-Zero Group, Inc. (Sub-Zero) commented that DOE's findings based
on manufacturer feedback in the previous energy conservation standards
rulemaking are still relevant. Specifically, the small market size, the
limited energy savings potential, and the lack of energy consumption
data for ovens with high input rates are reasons to exclude these
products from coverage. (Sub-Zero, No. 20 at pp. 2, 3) Sub-Zero further
commented that ``high performance'' is a better descriptor of cooking
products with high input rates rather than ``commercial-style,'' noting
that the ``high performance'' segment appeals to consumers demanding
restaurant-style cooking performance in their homes. (Sub-Zero, No. 20
at p. 2) Sub-Zero suggested that high performance (i.e., ``commercial-
style'') products be defined as cooking products that offer residential
consumers restaurant-quality performance at a safety and convenience
level that is acceptable for residential use. (Sub-Zero, No. 20 at p.
2)
DOE excluded ``commercial-style'' conventional gas ovens from its
analysis in the previous energy conservation standards rulemaking due
to a lack of available data for determining efficiency characteristics
of those products. 74 FR 16040, 16054 (Apr. 8, 2009); 72 FR 64432,
64444-64445 (Nov. 15, 2007). As discussed in section III.C of this
final rule, DOE conducted testing in support of the December 2014 SNOPR
that demonstrated that the existing conventional oven test procedure is
appropriate for ovens with high input rates. Additionally, DOE is not
aware of any data or test procedures that establish whether a
conventional oven with burner input rates greater than 22,500 Btu/h
delivers ``restaurant-quality performance'' as compared to an oven with
burner input rates lower than 22,500 Btu/h. Furthermore, through
testing, reverse engineering analyses, and discussions with
manufacturers conducted in support of the concurrent energy
conservation standards rulemaking for cooking products, DOE determined
that the primary differentiation between conventional gas ovens with
lower burner input rates and those with higher input rates, including
those marketed as commercial-style, was design and construction related
to aesthetics rather than improved cooking performance. Some examples
of design and construction related features include

[[Page 37958]]

heavier gauge cavity walls, extra interior support structure for
heavier gauge racks, and ball-bearing extension racks. These features
add to the overall thermal mass that must be heated during the baking
process but do not necessarily improve cooking performance.
For these reasons, DOE notes in this final rule that the current
definitions for ``conventional oven'' and ``conventional range'' in 10
CFR 430.2 already cover conventional gas ovens with higher input rates
(including commercial-style gas ovens), as these products are household
cooking appliances with compartments intended for the cooking or
heating of food by means of a gas flame.

B. Effective Date

The amended test procedure becomes effective 30 days after this
test procedure final rule is published in the Federal Register.
Pursuant to EPCA, manufacturers of covered products must use the
applicable test procedure as the basis for determining that their
products comply with the applicable energy conservation standards
adopted pursuant to EPCA and for making representations about the
efficiency of those products. (42 U.S.C. 6293(c); 42 U.S.C. 6295(s))
Beginning 180 days after publication of this test procedure final rule,
representations related to the energy consumption of conventional ovens
must be based upon results generated under the applicable provisions of
the amended test procedure in Appendix I. (42 U.S.C. 6293(c)(2))

C. Gas Ovens With Input Rates Greater Than 22,500 Btu/h

Because DOE is considering in a separate rulemaking energy
conservation standards for conventional ovens, including gas ovens with
high input rates, DOE evaluated the appropriateness of the existing
test methods in Appendix I for use with conventional gas ovens that
have burner input rates greater than 22,500 Btu/h. In the December 2014
SNOPR, DOE proposed that the existing test methods in Appendix I should
be used to test ovens with high input rates, including gas ovens
marketed as commercial-style. 79 FR 71916 (December 3, 2014).
The current active mode test procedure for conventional ovens
involves setting the temperature control for the normal baking cooking
cycle such that the temperature inside the oven is 325 5
degrees Fahrenheit ([deg]F) higher than the room ambient air
temperature (77 9[emsp14][deg]F). An 8.5-pound (6.25-inch
diameter) cylindrical anodized aluminum test block is then heated in
the oven from ambient room air temperature 4[emsp14][deg]F
until the test block temperature has increased 234[emsp14][deg]F above
its initial temperature. If an oven permits baking by either forced
convection by using a fan, or without forced convection, the oven is
tested using the procedure described above in each of those two cooking
modes. After the baking test(s), if the oven is equipped with a self-
cleaning function, the self-cleaning process is initiated in accordance
with the manufacturer's instruction and allowed to run until
completion. The measured energy consumption during these test cycles is
used to calculate the oven's cooking efficiency and integrated annual
energy consumption (IAEC).\6\
DOE's review of the gas oven cavity volumes currently available on
the U.S. market indicated that there is significant overlap in oven
cavity volume between products marketed as standard, residential-style
ovens and those marketed as commercial-style ovens. The primary
differentiating factor between the two oven types was burner input
rate, which is greater than 22,500 Btu/h for most commercial-style gas
ovens. In the December 2014 SNOPR, DOE investigated the effect of
increasing oven test block size on oven cooking efficiency. DOE sought
to determine whether a larger test block would provide a more
representative measure of cooking efficiency at higher input rates. DOE
also sought to determine whether the smaller block was inadequate to
properly measure the efficiency of commercial-style ovens. In its
testing, DOE found that while cooking efficiency increased with the
larger test block, it scaled by approximately the same factor for all
ovens tested regardless of a particular oven's input rate or cavity
volume, or whether the oven was marketed as residential-style or
commercial-style. The relative ranking of cooking efficiency for ovens
with high input rates as compared to ovens with input rates lower than
22,500 Btu/h did not change with increased test block size. This
suggested that thermal losses are large enough in comparison to the
heat absorbed by either sized test block that they account for much of
the additional oven energy input for ovens with high input rates. Thus,
the thermal losses from the cavity are driven largely by input rate
alone and do not change greatly with increased test block size. 79 FR
71915-71916 (December 3, 2014).
---------------------------------------------------------------------------

\6\ For ovens that can be operated with or without forced
convection, the average of the energy consumption for these two
modes is used. For self-clean mode, the test procedure in Appendix I
assumes an average of 4 self-cleaning operations per year.
---------------------------------------------------------------------------

Sub-Zero stated that the proposed test procedure does not
accurately measure the performance and efficiency of the larger,
higher-output components. (Sub Zero, No. 20 at p. 2) Additionally, Sub-
Zero commented that an analysis based largely on 30-inch wide gas or
electric ranges cannot adequately evaluate the very different
performance attributes offered by high-performance products which are
essential to consumer utility. (Sub-Zero, No. 20 at p. 2) Thus, Sub-
Zero believes that DOE's conclusion that the existing test procedure in
Appendix I is appropriate for ovens with high input rates is incorrect.
(Sub-Zero, No. 20 at p. 3) Sub-Zero requested that high performance
products be exempted until adequate further analysis is conducted such
that these products can be accurately and fairly evaluated. (Sub Zero,
No. 20 at p. 3)
In support of the December 2014 SNOPR and in support of the
parallel energy conservation standards rulemaking for conventional
ovens, DOE tested eight conventional gas ovens that were selected to
capture a range of design features that might impact performance,
including infrared broilers, convection fans, and hidden bake elements.
The basic design features and measured IAEC are shown in Table III-1.
The test sample included 30-inch wide models as well as models with
widths greater than 30 inches. DOE observed that many of the same
features found in gas ovens marketed as commercial-style were also
available in ovens marketed as residential-style. By comparing the
design features and the measured energy consumption of the ovens in its
test sample, DOE determined that the major differentiation between
conventional gas ovens with lower burner input rates and those with
higher input rates, including those marketed as commercial-style, was
design and construction related to aesthetics rather than improved
cooking performance. Available information also indicates that the high
thermal mass of products marketed as commercial-style likely lead to a
low oven cooking efficiency and require higher oven input rates to
compensate for the heat lost to the cavity.

[[Page 37959]]

Table III-1--Gas Oven Features in DOE Test Sample
--------------------------------------------------------------------------------------------------------------------------------------------------------
Burner Normalized
Installation input Unit Cavity Hidden bake Convection IAEC
Test unit No. Type configuration rate width volume Ignition type element (Y/ (Y/N) [dagger]
(Btu/h) (in.) (ft\3\) N) (kBtu/yr)
--------------------------------------------------------------------------------------------------------------------------------------------------------
1............... Standard........... Freestanding....... 18,000 30 4.8 Spark.............. Y N 1234.2
2............... Standard........... Freestanding....... 18,000 30 4.8 Glo-bar............ Y N 1396.5
3............... Self-Clean......... Freestanding....... 18,000 30 5.0 Glo-bar............ Y Y 1269.0
4............... Standard........... Freestanding....... 16,500 30 4.4 Glo-bar............ Y N 1495.2
5............... Self-Clean......... Built-in........... 13,000 24 2.8 Glo-bar............ Y N 1492.9
6 *............. Standard........... Freestanding....... 28,000 36 5.3 Glo-bar............ Y Y 1864.5
7 *............. Standard........... Slide-in........... 27,000 30 4.4 Glo-bar............ Y Y 1916.5
8 *............. Standard........... Freestanding....... 30,000 36 5.4 Glo-bar............ Y Y 2079.3
--------------------------------------------------------------------------------------------------------------------------------------------------------
* Models are marketed as commercial style.
[dagger] Measured IAEC normalized to a fixed cavity volume of 4.3 ft\3\.

DOE also investigated the time it took each oven in its sample to
heat the test block to the required final temperature of
234[emsp14][deg]F above its initial temperature. As shown in Table III-
2, gas ovens with burner input rates greater than 22,500 Btu/h do not
heat the test block significantly faster than the ovens with lower
burner input rates, and two out of the three units with the higher
burner input rates took longer than the average time to heat the test
block.

Table III-2--Gas Oven Test Times
----------------------------------------------------------------------------------------------------------------
Bake time for
the test block
to reach 234 Difference in
Unit Product class Burner input [deg]F above time from avg.
rate (Btu/h) initial temp (min)
(minutes
(min))
----------------------------------------------------------------------------------------------------------------
1............................... Standard...................... 18,000 43.6 -3.8
2............................... Standard...................... 18,000 43.6 -3.8
3............................... Self-Clean.................... 18,000 47.2 -0.2
4............................... Standard...................... 16,500 44.9 -2.5
5............................... Self-Clean.................... 13,000 48.9 1.5
6............................... Standard *.................... 28,000 48.9 1.5
7............................... Standard *.................... 27,000 45.4 -2.0
8............................... Standard *.................... 30,000 57.2 9.8
-----------------------------------------------
Average..................... .............................. .............. 47.4 ..............
----------------------------------------------------------------------------------------------------------------
* Test units 6, 7, and 8 are marketed as commercial-style ovens.

Considering the testing results and analysis described above, and
because interested parties did not provide data or information to
support the assertion that the performance of conventional ovens with
input rates greater than 22,500 Btu/h as compared to ovens with lower
input rates cannot be accurately measured using the existing test
procedure, DOE maintains in this final rule that the existing test
block and existing conventional oven test method are appropriate to
test conventional ovens with input rates greater than 22,500 Btu/h.

D. Incorporating by Reference AHAM-OV-1-2011 for Determination of the
Volume of Conventional Ovens

As discussed in section I of this final rule, DOE has initiated a
rulemaking to determine whether to amend the current energy
conservation standards for conventional ovens. As part of that
rulemaking, DOE has proposed standards as a function of oven cavity
volume.
In the December 2014 SNOPR, DOE proposed to amend section 3.1.1 of
Appendix I to incorporate by reference the industry test standard AHAM-
OV-1-2011, which includes a method for determining oven cavity volume.
DOE proposed to incorporate section 3, ``Definition,'' section 5.1,
``General Principles,'' and section 5.2 ``Overall Volume'' of AHAM-OV-
1-2011, as these sections provide a repeatable and reproducible method
to measure cavity dimensions and calculate overall volume by including
clear definitions of oven characteristics and tolerances for
dimensional measurements. 79 FR 71916 (December 3, 2014). Section 5.1
of AHAM-OV-1-2011 specifies that if depressions or cutouts exist in the
cavity wall, dimensions are taken from the plane representing the
largest area of the surface. Section 5.1 of AHAM-OV-1-2011 also
specifies that oven lights, racks, and other removable features shall
be ignored in the overall volume calculation, and the volume of non-
rectangular cavities is calculated by measuring the rectangular portion
of the cavity and non-rectangular cavity separately and adding their
volumes together.
AHAM-OV-1-2011 also includes a measurement of the oven's usable
space, which is the volume inside the oven cavity available for the
placement of food, but DOE did not propose to incorporate this
measurement in Appendix I. The usable space is oven-specific and
determined by measuring either the size of the cavity door aperture or
the distance between barriers, racks, and rack supports inside the
cavity or on the cavity walls. The lesser of these dimensions is used
to calculate the volume of the usable space.
Although DOE did not receive any public comments on its proposal to

[[Page 37960]]

incorporate the overall cavity volume measurement described in section
5.1 and 5.2 of AHAM-OV-1-2011, one manufacturer commented during
interviews conducted in February and March of 2015 that DOE should
instead consider incorporating the usable space measurement described
in section 5.3 of AHAM-OV-1-2011. The manufacturer cited difficulty in
determining the plane representing the largest area of the cavity wall
surface, and also stated that the oven test procedure used by National
Resources Canada (NRCan) bases its energy efficiency regulations on the
volume of usable oven space and not overall cavity volume.
DOE notes that during February and March 2105 manufacturer
interviews conducted to discuss the December 2014 SNOPR, the majority
of manufacturers confirmed that the cavity volume currently published
in marketing materials and product literature typically represents
overall cavity volume. DOE does not believe that requiring this
measurement will place additional burden on manufacturers.
Manufacturers already provide exterior dimensions in the installation
instructions and may also be able to use the configuration and
dimensions of indentions in the oven cavity walls provided in
engineering drawings to determine the plane representing the largest
area of the cavity wall surface. Incorporating a cavity measurement
into Appendix I would, in most circumstances, add only the three
additional measurements of cavity height, width, and depth.
Furthermore, DOE believes the overall cavity volume measurement
provides a more accurate representation of the relationship between
cavity volume and cooking efficiency as measured by the DOE test
procedure in Appendix I. Any mass in the overall cavity volume outside
of the usable space is heated during the bake cycle, contributes to the
thermal mass, and thus impacts the cooking efficiency of the oven.
For the reasons discussed above, DOE amends in this final rule
section 3.1.1 of Appendix I to incorporate by reference Sections 3,
5.1, and 5.2 of AHAM-OV-1-2011 for measuring the overall oven cavity
volume.

E. Conventional Oven Separator

In the December 2014 SNOPR, DOE observed one conventional electric
oven equipped with an oven separator on the U.S. market that allows for
cooking using the entire oven cavity in the absence of the separator
or, if the separator is installed, splitting the oven into two smaller
cavities that may be operated individually with independent temperature
controls. DOE proposed to test conventional ovens equipped with an oven
separator in each possible oven configuration (i.e., full oven cavity,
upper cavity, and lower cavity) with the cooking efficiency and total
annual energy consumption averaged. DOE noted that while the current
test procedure in Appendix I includes provisions for measuring the
energy consumption and cooking efficiency of single ovens and multiple
(separate) ovens,\7\ it does not include provisions for how to test a
single oven that can be configured as a full oven or as two separate
smaller cavities. 79 FR 71916-71917 (December 3, 2014).
---------------------------------------------------------------------------

\7\ For multiple ovens, Appendix I specifies that the energy
consumption and cooking efficiency be calculated as the average of
each individual oven.
---------------------------------------------------------------------------

During the subsequent manufacturer interviews, several
manufacturers commented that without an easy or convenient way to store
the separator, consumers would rarely use the feature. One manufacturer
suggested that DOE consider applying a consumer usage factor to the
oven separator when calculating annual energy consumption instead of
using an equally-weighted average.
DOE is not aware of any consumer usage data indicating how often
consumers might use an oven separator in each configuration.
Additionally, DOE notes that the annual energy consumption of
conventional ovens having multiple, permanent cavities of different
volumes are currently averaged with an equal weighting in the existing
oven test procedure in Appendix I. Therefore, DOE has no basis to adopt
a weighted average of cooking efficiency and annual energy consumption
as part of the test procedure for ovens equipped with an oven
separator. In this final rule, DOE amends the oven test procedure in
Appendix I to require the test of conventional ovens equipped with an
oven separator in each possible oven configuration and to calculate
cooking efficiency and annual energy consumption as an equal average of
the results measured in each configuration.

F. Standby and Off Mode Test Procedure

EPCA requires that DOE amend its test procedures for all covered
consumer products, including conventional ovens, to include measures of
standby mode and off mode energy consumption, if technically feasible.
(42 U.S.C. 6295(gg)(2)(A)) Accordingly, DOE conducted a rulemaking for
conventional cooking products, dishwashers, and dehumidifiers to
address standby and off mode energy consumption.\8\ In the October 2012
Final Rule, DOE addressed standby mode and off mode energy consumption,
as well as active mode fan-only operation, for conventional cooking
products. 77 FR 65942 (Oct. 31, 2012).
---------------------------------------------------------------------------

\8\ DOE pursued amendments to Appendix I addressing standby and
off mode energy for microwave ovens as part of a separate
rulemaking. The final rule for this microwave oven rulemaking
published on January 18, 2013. 78 FR 4015.
---------------------------------------------------------------------------

DOE noted in the December 2014 SNOPR that because conventional gas
ovens with higher input rates are covered under the definition of
``cooking products'' in 10 CFR 430.2, these products are covered by the
standby and off mode test procedures discussed above. During testing of
conventional ovens with both standard and higher input rates in its
test sample, DOE did not observe any standby mode or off mode operation
or features unique to these products that would warrant any changes to
the standby mode and off mode test methods. 79 FR 71917 (December 3,
2014). Because DOE received no comments objecting to these findings,
this final rule does not amend the standby mode and off mode test
methods currently specified in Appendix I section 3.1.

G. Technical Corrections to the Calculation of Derived Results From
Test Measurements

DOE did not receive comments on its proposal to correct the units
of measurement in section 4 of Appendix I nor did DOE receive comments
on its correction of the integrated energy factor for conventional
electric cooking tops, IRCT. In this final rule, DOE
corrects the following sections of Appendix I to reference the
appropriate units: 4.1.2.1.1, 4.1.2.2.1, 4.1.2.4.3, 4.1.2.5.3, 4.1.4.1,
4.1.4.2, 4.2.1.2, 4.2.2.2.1, and 4.2.2.2.2. DOE also corrects the value
of the annual useful cooking energy output, OCT, used to
calculate IRCT, to 173.1 kWh per year.

H. Headings for Conventional Cooking Top Calculations

DOE did not receive comments on its proposal in the December 2014
SNOPR to restore headings to section 4.2 ``Conventional cooking top,''
and section 4.2.1, ``Surface unit cooking efficiency'' in Appendix I to
appropriately describe these sections. Therefore DOE has included these
modifications in this final rule.
I. Clarifying Definitions for Freestanding and Built-In Ovens
Appendix I contains definitions for various cooking product
installation

[[Page 37961]]

conditions and specifies that the unit under test must be installed in
an enclosure in accordance with the manufacturer's instructions. The
test procedure in Appendix I currently defines ``freestanding'' as an
installation configuration where the product is not supported by
surrounding cabinetry, walls, or other similar structures. A ``built-
in'' installation condition means the product is supported by
surrounding cabinetry, walls, or other similar structures. ``Drop-in''
means the product is supported by horizontal surface cabinetry. During
interviews after publication of the December 2014 SNOPR, manufacturers
commented that the current definitions for ``freestanding,'' ``built-
in,'' and ``drop-in'' should be amended. Specifically, manufacturers
noted that some conventional ovens and conventional ranges are designed
to be used in both a freestanding or built-in configuration, and that
it is currently unclear in which configuration the oven should be
tested.
During its testing, DOE observed that built-in ovens consume energy
in fan-only mode, whereas freestanding ovens do not. The additional
energy required to exhaust air from the oven cavity is necessary to
meet safety-related temperature requirements for built-in installation
configurations, in which the oven is enclosed in cabinetry. Because
built-in ovens consume additional energy in fan-only mode, as part of
DOE's ongoing energy conservation standards rulemaking for conventional
ovens, DOE has proposed to establish separate product classes for
built-in and freestanding ovens using the definitions provided in
Appendix I. 80 FR 33030, 33045-46 (June 10, 2015). DOE also recognizes
that the current definition of built-in configurations does not
adequately describe the installation conditions that require built-in
ovens to have a separate fan assembly and fan-only mode.
In this final rule, DOE is clarifying that conventional ovens or
ranges that may be used in either a freestanding or built-in
configuration are to be tested in the built-in configuration to account
for any additional energy-consumption related to fan-only mode in this
configuration. DOE is also clarifying that the definition of built-in
means the product is enclosed in surrounding cabinetry, walls, or other
similar structures on at least three sides.

J. Clarifying Definitions for Oven Self-Cleaning Operation

The existing test procedure in Appendix I does not include a
definition for the self-cleaning operation or self-cleaning process of
conventional ovens, although it specifies the measurement energy
consumption during self-cleaning operation in section 3 Test Methods
and Measurements. The existing test procedure specifies setting the
conventional oven's self-cleaning process in accordance with the
manufacturer's instructions, and if the self-cleaning process is
adjustable, using the average time recommended by the manufacturer for
a moderately soiled oven. DOE is clarifying in the final rule that
self-cleaning operation is an active mode not intended to heat or cook
food that is user-selectable, separate from the normal baking mode, and
dedicated to cleaning and removing cooking deposits from the oven
cavity walls.

K. Compliance With Other EPCA Requirements

EPCA requires that any new or amended test procedures for consumer
products must 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 must not be unduly burdensome to conduct. (42 U.S.C.
6293(b)(3))
As part of the December 2014 SNOPR, DOE tentatively concluded that
the amended test procedures would produce test results that measure the
energy consumption of conventional ovens during representative use, and
that the test procedures would not be unduly burdensome to conduct. 79
FR 71917-71918 (Dec. 3, 2014).
As discussed in section III.C of this document, the final rule
amends the test procedure for gas ovens to require that the existing
test block be used for all ovens, including ovens with high input
rates. DOE does not expect any increase in testing burden compared to
the existing test procedure, since these tests follow the same
methodology, use the same test equipment, and can be conducted in the
same facilities used for the current energy testing of conventional
ovens. As discussed in section III.D of this document, the final rule
also incorporates by reference AHAM-OV-1-2011 for measuring the overall
oven cavity volume. DOE estimates that it would take on the order of
one-half to one hour to conduct the cavity volume measurement for a
single oven, and $50 to $100 per test for labor. Additionally, because
manufacturers may already be using the AHAM procedure to measure oven
cavity volume, DOE does not anticipate this measurement to be unduly
burdensome to conduct. As discussed in section III.E of this document,
the final rule amends the test procedure so that conventional ovens
equipped with an oven separator are tested in each possible oven
configuration. DOE notes, based on its testing, that this may add two
oven tests for the additional cavity configurations, and add
approximately $2,750 for labor. DOE does not believe this additional
cost represents an excessive burden for test laboratories or
manufacturers given the significant investments necessary to
manufacture, test and market consumer appliances.

IV. Procedural Issues and Regulatory Review

A. Review Under Executive Order 12866

The Office of Management and Budget (OMB) has determined that test
procedure rulemakings do not constitute ``significant regulatory
actions'' under section 3(f) of Executive Order 12866, Regulatory
Planning and Review, 58 FR 51735 (Oct. 4, 1993). Accordingly, this
action was not subject to review under the Executive Order by the
Office of Information and Regulatory Affairs (OIRA) in the Office of
Management and Budget (OMB).

B. 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 and a final
regulatory flexibility analysis for any such rule that an agency adopts
as a final rule, 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: http://energy.gov/gc/office-general-counsel.
DOE reviewed this final rule under the provisions of the Regulatory
Flexibility Act and the procedures and policies published on February
19, 2003. The final rule clarifies that the existing test method for
ovens is applicable to gas ovens with higher input rates. The final
rule also includes a test method for conventional ovens with oven
separators and incorporates by reference a test method to measure oven
cavity volume.

[[Page 37962]]

The Small Business Administration (SBA) considers a business entity
to be a small business, if, together with its affiliates, it employs
less than a threshold number of workers or earns less than the average
annual receipts specified in 13 CFR part 121. The threshold values set
forth in these regulations use size standards and codes established by
the North American Industry Classification System (NAICS) that are
available at: http://www.sba.gov/sites/default/files/files/Size_Standards_Table.pdf. The threshold number for NAICS classification
code 335221, titled ``Household Cooking Appliance Manufacturing,'' is
750 employees; this classification includes manufacturers of
residential conventional ovens.
Most of the manufacturers supplying conventional ovens are large
multinational corporations. DOE surveyed the AHAM member directory to
identify manufacturers of conventional ovens and conventional ranges.
DOE then consulted publicly-available data, purchased company reports
from vendors such as Dun and Bradstreet, and contacted manufacturers,
where needed, to determine if they meet the SBA's definition of a
``small business manufacturing facility'' and have their manufacturing
facilities located within the United States. Based on this analysis,
DOE estimates that there are seven small businesses that manufacture
conventional ovens and conventional ranges subject to the proposed test
procedure amendments.
For the reasons stated in the preamble, DOE has concluded that the
final rule would not have a significant impact on small manufacturers
under the applicable provisions of the Regulatory Flexibility Act. The
final rule clarifies that DOE's existing test procedures in Appendix I
for conventional ovens are applicable to conventional ovens with higher
input rates. These tests follow the same methodology, use the same test
equipment, and can be conducted in the same facilities used for the
current energy testing of conventional ovens, so there would be no
additional facility costs required by the final rule. Additionally, the
incorporation by reference of AHAM-OV-1-2011 to measure oven cavity
volume and the addition of a test method to measure conventional ovens
with an oven separator will not significantly impact small
manufacturers under the applicable provisions of the Regulatory
Flexibility Act. DOE estimates a cost of $4,500 for an average small
manufacturer to measure the cavity volume of all of its product
offerings which is only 0.03 percent of the average annual revenue of
the seven identified small businesses. This estimate assumes $100 per
test as described in section III.K of this notice, with up to 44 tests
per manufacturer. Additionally, no small conventional oven
manufacturer, as defined by the SBA, offers a product with an oven
separator.
For these reasons, DOE concludes and certifies that this final 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 has transmitted the
certification and supporting statement of factual basis to the Chief
Counsel for Advocacy of the SBA for review under 5 U.S.C. 605(b).

C. Review Under the Paperwork Reduction Act of 1995

Manufacturers of conventional ovens must certify to DOE that their
products comply with any applicable energy conservation standards. In
certifying compliance, manufacturers must test their products according
to the DOE test procedures for conventional ovens, including any
amendments adopted for those test procedures. DOE has established
regulations for the certification and recordkeeping requirements for
all covered consumer products and commercial equipment, including
conventional ovens. 76 FR 12422 (March 7, 2011). The collection-of-
information requirement for the certification and recordkeeping is
subject to review and approval by OMB under the Paperwork Reduction Act
(PRA). This requirement has been approved by OMB under OMB control
number 1910-1400. In an application to renew the OMB information
collection approval for DOE's certification and recordkeeping
requirements, DOE included an estimated burden for manufacturers of
conventional ovens. OMB has approved the revised information collection
for DOE's certification and recordkeeping requirements through November
30, 2017. 80 FR 5099 (January 30, 2015). DOE estimated that it will
take each respondent approximately 30 hours total per company per year
to comply with the certification and recordkeeping requirements based
on 20 hours of technician/technical work and 10 hours clerical work to
submit the Compliance and Certification Management System templates.
This rulemaking would include recordkeeping requirements on
manufacturers that are associated with executing and maintaining the
test data for this equipment. DOE recognizes that recordkeeping burden
may vary substantially based on company preferences and practices.
Notwithstanding any other provision of the law, no person is
required to respond to, nor shall any person be subject to a penalty
for failure to comply with, a collection of information subject to the
requirements of the PRA, unless that collection of information displays
a currently valid OMB Control Number.

D. Review Under the National Environmental Policy Act of 1969

In this final rule, DOE amends its test procedure for conventional
ovens. DOE has determined that this rule falls into a class of actions
that are categorically excluded from review under the National
Environmental Policy Act of 1969 (42 U.S.C. 4321 et seq.) and DOE's
implementing regulations at 10 CFR part 1021. Specifically, this rule
amends an existing rule without affecting the amount, quality or
distribution of energy usage, and, therefore, will not result in any
environmental impacts. Thus, this rulemaking is covered by Categorical
Exclusion A5 under 10 CFR part 1021, subpart D, which applies to any
rulemaking that interprets or amends an existing rule without changing
the environmental effect of that rule. Accordingly, neither an
environmental assessment nor an environmental impact statement is
required.

E. Review Under Executive Order 13132

Executive Order 13132, ``Federalism,'' 64 FR 43255 (August 4,
1999), imposes certain requirements on agencies formulating and
implementing policies or regulations that preempt State law or that
have Federalism implications. The Executive Order requires agencies to
examine the constitutional and statutory authority supporting any
action that would limit the policymaking discretion of the States and
to carefully assess the necessity for such actions. The Executive Order
also requires agencies to have an accountable process to ensure
meaningful and timely input by State and local officials in the
development of regulatory policies that have Federalism implications.
On March 14, 2000, DOE published a statement of policy describing the
intergovernmental consultation process it will follow in the
development of such regulations. 65 FR 13735. DOE examined this final
rule and determined that it will not have a substantial direct effect
on the States, on the relationship between the national government and
the States, or on the distribution of power and responsibilities among
the

[[Page 37963]]

various levels of government. EPCA governs and prescribes Federal
preemption of State regulations as to energy conservation for the
products that are the subject of this final rule. States can petition
DOE for exemption from such preemption to the extent, and based on
criteria, set forth in EPCA. (42 U.S.C. 6297(d)) No further action is
required by Executive Order 13132.

F. Review Under Executive Order 12988

Regarding the review of existing regulations and the promulgation
of new regulations, section 3(a) of Executive Order 12988, ``Civil
Justice Reform,'' 61 FR 4729 (Feb. 7, 1996), imposes on Federal
agencies the general duty to adhere to the following requirements: (1)
Eliminate drafting errors and ambiguity; (2) write regulations to
minimize litigation; (3) provide a clear legal standard for affected
conduct rather than a general standard; and (4) promote simplification
and burden reduction. Section 3(b) of Executive Order 12988
specifically requires that Executive agencies make every reasonable
effort to ensure that the regulation: (1) Clearly specifies the
preemptive effect, if any; (2) clearly specifies any effect on existing
Federal law or regulation; (3) provides a clear legal standard for
affected conduct while promoting simplification and burden reduction;
(4) specifies the retroactive effect, if any; (5) adequately defines
key terms; and (6) addresses other important issues affecting clarity
and general draftsmanship under any guidelines issued by the Attorney
General. Section 3(c) of Executive Order 12988 requires Executive
agencies to review regulations in light of applicable standards in
sections 3(a) and 3(b) to determine whether they are met or it is
unreasonable to meet one or more of them. DOE has completed the
required review and determined that, to the extent permitted by law,
this final rule meets the relevant standards of Executive Order 12988.

G. Review Under the Unfunded Mandates Reform Act of 1995

Title II of the Unfunded Mandates Reform Act of 1995 (UMRA)
requires each Federal agency to assess the effects of Federal
regulatory actions on State, local, and Tribal governments and the
private sector. Public Law 104-4, sec. 201 (codified at 2 U.S.C. 1531).
For a regulatory action resulting in a rule that may cause the
expenditure by State, local, and Tribal governments, in the aggregate,
or by the private sector of $100 million or more in any one year
(adjusted annually for inflation), section 202 of UMRA requires a
Federal agency to publish a written statement that estimates the
resulting costs, benefits, and other effects on the national economy.
(2 U.S.C. 1532(a), (b)) The UMRA also requires a Federal agency to
develop an effective process to permit timely input by elected officers
of State, local, and Tribal governments on a proposed ``significant
intergovernmental mandate,'' and requires an agency plan for giving
notice and opportunity for timely input to potentially affected small
governments before establishing any requirements that might
significantly or uniquely affect small governments. On March 18, 1997,
DOE published a statement of policy on its process for
intergovernmental consultation under UMRA. 62 FR 12820; also available
at http://energy.gov/gc/office-general-counsel. DOE examined this final
rule according to UMRA and its statement of policy and determined that
the rule contains neither an intergovernmental mandate, nor a mandate
that may result in the expenditure of $100 million or more in any year,
so these requirements do not apply.

H. Review Under the Treasury and General Government Appropriations Act,
1999

Section 654 of the Treasury and General Government Appropriations
Act, 1999 (Pub. L. 105-277) requires Federal agencies to issue a Family
Policymaking Assessment for any rule that may affect family well-being.
This final rule will not have any impact on the autonomy or integrity
of the family as an institution. Accordingly, DOE has concluded that it
is not necessary to prepare a Family Policymaking Assessment.

I. Review Under Executive Order 12630

DOE has determined, under Executive Order 12630, ``Governmental
Actions and Interference with Constitutionally Protected Property
Rights'' 53 FR 8859 (March 18, 1988), that this regulation will not
result in any takings that might require compensation under the Fifth
Amendment to the U.S. Constitution.

J. Review Under Treasury and General Government Appropriations Act,
2001

Section 515 of the Treasury and General Government Appropriations
Act, 2001 (44 U.S.C. 3516 note) provides for agencies to review most
disseminations of information to the public under guidelines
established by each agency pursuant to general guidelines issued by
OMB. OMB's guidelines were published at 67 FR 8452 (Feb. 22, 2002), and
DOE's guidelines were published at 67 FR 62446 (Oct. 7, 2002). DOE has
reviewed this final rule under the OMB and DOE guidelines and has
concluded that it is consistent with applicable policies in those
guidelines.

K. Review Under Executive Order 13211

Executive Order 13211, ``Actions Concerning Regulations That
Significantly Affect Energy Supply, Distribution, or Use,'' 66 FR 28355
(May 22, 2001), requires Federal agencies to prepare and submit to OMB,
a Statement of Energy Effects for any significant energy action. A
``significant energy action'' is defined as any action by an agency
that promulgated or is expected to lead to promulgation of a final
rule, and that: (1) Is a significant regulatory action under Executive
Order 12866, or any successor order; and (2) is likely to have a
significant adverse effect on the supply, distribution, or use of
energy; or (3) is designated by the Administrator of OIRA as a
significant energy action. For any significant energy action, the
agency must give a detailed statement of any adverse effects on energy
supply, distribution, or use if the regulation is implemented, and of
reasonable alternatives to the action and their expected benefits on
energy supply, distribution, and use.
This regulatory action is not a significant regulatory action under
Executive Order 12866. Moreover, it would not have a significant
adverse effect on the supply, distribution, or use of energy, nor has
it been designated as a significant energy action by the Administrator
of OIRA. Therefore, it is not a significant energy action, and,
accordingly, DOE has not prepared a Statement of Energy Effects.

L. Review Under Section 32 of the Federal Energy Administration Act of
1974

Under section 301 of the Department of Energy Organization Act
(Pub. L. 95-91; 42 U.S.C. 7101), DOE must comply with section 32 of the
Federal Energy Administration Act of 1974, as amended by the Federal
Energy Administration Authorization Act of 1977. (15 U.S.C. 788; FEAA)
Section 32 essentially provides in relevant part that, where a proposed
rule authorizes or requires use of commercial standards, the notice of
proposed rulemaking must inform the public of the use and background of
such standards. In addition, section 32(c) requires DOE to consult with
the Attorney General and the Chairman of the Federal Trade Commission
(FTC) concerning the impact of the commercial or industry standards on
competition.

[[Page 37964]]

The proposed modifications to the test procedures addressed by this
action incorporate testing methods contained in the AHAM OV-1-2011
standard, ``Procedures for the Determination and Expression of the
Volume of Household Microwave and Conventional Ovens.'' DOE has
evaluated this standard and is unable to conclude whether this industry
standard fully complies with the requirements of section 32(b) of the
FEAA, (i.e., that it was developed in a manner that fully provides for
public participation, comment, and review). DOE has consulted with both
the Attorney General and the Chairman of the FTC about the impact on
competition of using the methods contained in these standards and has
received no comments objecting to their use.

M. Congressional Notification

As required by 5 U.S.C. 801, DOE will report to Congress on the
promulgation of this rule before its effective date. The report will
state that it has been determined that the rule is not a ``major rule''
as defined by 5 U.S.C. 804(2).

N. Approval of the Office of the Secretary

The Secretary of Energy has approved publication of this final
rule.

List of Subjects in 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 June 18, 2015.
Kathleen B. Hogan,
Deputy Assistant Secretary for Energy Efficiency, Energy Efficiency and
Renewable Energy.

For the reasons stated in the preamble, DOE amends part 430 of
Chapter II of Title 10, Code of Federal Regulations as set forth below:

PART 430--ENERGY CONSERVATION PROGRAM FOR CONSUMER PRODUCTS

0
1. 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
2. Section 430.3 is amended by redesignating paragraph (h)(7) as (h)(8)
and adding new paragraph (h)(7) to read as follows:

Sec. 430.3 Materials incorporated by reference.

* * * * *
(h) * * *
(7) AHAM OV-1-2011, (``AHAM OV- 1''), Procedures for the
Determination and Expression of the Volume of Household Microwave and
Conventional Ovens, (2011), IBR approved for appendix I to subpart B.
* * * * *

Appendix I to Subpart B--[Amended]

0
3. Appendix I to subpart B of part 430 is amended:
0
a. By revising the Note;
0
b. In section 1. Definitions, by:
0
i. Redesignating sections 1.2 through 1.19 as sections 1.3 through
1.20, respectively; and
0
ii. Adding new section 1.2;
0
iii. Revising newly redesignated section 1.3;
0
c. In section 2. Test Conditions, by revising sections 2.1 and 2.6;
0
d. By revising section 3. Test Methods and Measurements;
0
e. In section 4. Calculation of Derived Results From Test Measurements,
by:
0
i. Revising sections 4.1.2.1.1, 4.1.2.2.1, 4.1.2.4.3, 4.1.2.5,
4.1.2.5.1, 4.1.2.5.2, 4.1.2.5.3. 4.1.3.2, 4.1.4.1, 4.1.4.2, 4.2.1.2,
4.2.2.2.1, 4.2.2.2.2, and 4.2.3.2; and
0
ii. Adding sections 4.2 and 4.2.1.
The revisions and additions read as follows:

Appendix I to Subpart B of Part 430--Uniform Test Method for Measuring
the Energy Consumption of Conventional Ranges, Conventional Cooking
Tops, Conventional Ovens, and Microwave Ovens

Note: Any representation related to active mode energy
consumption of conventional ranges, conventional cooking tops, and
conventional ovens made after December 29, 2015 must be based upon
results generated under this test procedure. Any representation
related to standby mode and off mode energy consumption of
conventional ranges, conventional cooking tops, conventional ovens,
and microwave ovens must be based upon results generated under this
test procedure.

Upon the compliance date(s) of any energy conservation standard(s)
for conventional ranges, conventional cooking tops, conventional ovens,
and microwave ovens, use of the applicable provisions of this test
procedure to demonstrate compliance with the energy conservation
standard(s) will also be required.

1. Definitions

* * * * *
1.2 AHAM-OV-1 means the test standard published by the Association
of Home Appliance Manufacturers titled, ``Procedures for the
Determination and Expression of the Volume of Household Microwave and
Conventional Ovens,'' AHAM OV-1-2011 (incorporated by reference; see
Sec. 430.3).
1.3 Built-in means the product is enclosed in surrounding
cabinetry, walls, or other similar structures on at least three sides.
* * * * *

2. Test Conditions

2.1 Installation A freestanding conventional range or oven shall be
installed with the back directly against, or as near as possible to, a
vertical wall which extends at least 1 foot above and on either side of
the appliance. There shall be no side walls. A drop-in, built-in, or
wall-mounted appliance shall be installed in an enclosure in accordance
with the manufacturer's instructions. If the manufacturer's
instructions specify that the appliance may be used in multiple
installation conditions, the appliance shall be installed according to
the built-in configuration. Regardless of the installation condition,
conventional cooking products are to be completely assembled with all
handles, knobs, guards, etc. mounted in place. Any electric resistance
heaters, gas burners, baking racks, and baffles shall be in place in
accordance with the manufacturer's instructions; however, broiler pans
are to be removed from the oven's baking compartment.
* * * * *
2.6 Normal nonoperating temperature. All areas of the appliance to
be tested shall attain the normal nonoperating temperature, as defined
in section 1.13 of this appendix, before any testing begins. The
equipment for measuring the applicable normal nonoperating temperature
shall be as described in sections 2.9.3.1, 2.9.3.2, 2.9.3.3, and
2.9.3.4 of this appendix, as applicable.
* * * * *

3. Test Methods and Measurements

3.1 Test methods.
3.1.1 Conventional oven. Perform a test by establishing the testing
conditions set forth in section 2, Test Conditions, of this appendix
and turn off the gas flow to the conventional cooking top, if so
equipped. Before beginning the test, the conventional oven shall be at
its normal non-operating temperature as defined in section 1.13 and
described in section 2.6 of this appendix. Set the conventional oven
test block W1 approximately in the center of the usable
baking space. If

[[Page 37965]]

there is a selector switch for selecting the mode of operation of the
oven, set it for normal baking. If an oven permits baking by either
forced convection by using a fan, or without forced convection, the
oven is to be tested in each of those two modes. The oven shall remain
on for one complete thermostat ``cut-off/cut-on'' of the electrical
resistance heaters or gas burners after the test block temperature has
increased 234 [deg]F (130 [deg]C) above its initial temperature.
3.1.1.1 Self-cleaning operation of a conventional oven. If the
conventional oven is capable of operating in a user-selectable self-
cleaning mode, separate from the normal baking mode and dedicated to
cleaning and removing cooking deposits from the oven cavity walls,
establish the test conditions set forth in section 2, Test Conditions,
of this appendix. Turn off the gas flow to the conventional cooking
top. The temperature of the conventional oven shall be its normal non-
operating temperature as defined in section 1.13 and described in
section 2.6 of this appendix. Then set and start the conventional
oven's self-cleaning process in accordance with the manufacturer's
instructions. If the self-cleaning process is adjustable, use the
average time recommended by the manufacturer for a moderately soiled
oven.
3.1.1.2 Conventional oven standby mode and off mode power.
Establish the standby mode and off mode testing conditions set forth in
section 2, Test Conditions, of this appendix. For conventional ovens
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 (Second
Edition) (incorporated by reference; see Sec. 430.3), allow sufficient
time for the conventional oven to reach the lower power state before
proceeding with the test measurement. Follow the test procedure as
specified in Section 5, Paragraph 5.3.2 of IEC 62301 (Second Edition)
for testing in each possible mode as described in 3.1.1.2.1 and
3.1.1.2.2 of this appendix. For units in which power varies as a
function of displayed time in standby mode, set the clock time to 3:23
at the end of the stabilization period specified in Section 5,
Paragraph 5.3 of IEC 62301 (First Edition), and use the average power
approach described in Section 5, Paragraph 5.3.2(a) of IEC 62301 (First
Edition), but with a single test period of 10 minutes +0/-2 sec after
an additional stabilization period until the clock time reaches 3:33.
3.1.1.2.1 If the conventional oven has an inactive mode, as defined
in section 1.12 of this appendix, measure and record the average
inactive mode power of the conventional oven, PIA, in watts.
3.1.1.2.2 If the conventional oven has an off mode, as defined in
section 1.14 of this appendix, measure and record the average off mode
power of the conventional oven, POM, in watts.
3.1.1.3 Conventional oven cavity volume. Measure the oven cavity
volume according to the test procedure specified in Sections 3, 5.1 and
5.2 of AHAM-OV-1 (incorporated by reference; see Sec. 430.3).
3.1.2 Conventional cooking top. Establish the test conditions set
forth in section 2, Test Conditions, of this appendix. Turn off the gas
flow to the conventional oven(s), if so equipped. The temperature of
the conventional cooking top shall be its normal nonoperating
temperature as defined in section 1.13 and described in section 2.6 of
this appendix. Set the test block in the center of the surface unit
under test. The small test block, W2, shall be used on
electric surface units of 7 inches (178 mm) or less in diameter. The
large test block, W3, shall be used on electric surface
units over 7 inches (178 mm) in diameter and on all gas surface units.
Turn on the surface unit under test and set its energy input rate
to the maximum setting. When the test block reaches 144[emsp14][deg]F
(80 [deg]C) above its initial test block temperature, immediately
reduce the energy input rate to 255 percent of the maximum
energy input rate. After 150.1 minutes at the reduced
energy setting, turn off the surface unit under test.
3.1.2.1 Conventional cooking top standby mode and off mode power.
Establish the standby mode and off mode testing conditions set forth in
section 2, Test Conditions, of this appendix. For conventional cooktops
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 (Second
Edition) (incorporated by reference; see Sec. 430.3), allow sufficient
time for the conventional cooking top to reach the lower power state
before proceeding with the test measurement. Follow the test procedure
as specified in Section 5, Paragraph 5.3.2 of IEC 62301 (Second
Edition) for testing in each possible mode as described in sections
3.1.2.1.1 and 3.1.2.1.2 of this appendix. For units in which power
varies as a function of displayed time in standby mode, set the clock
time to 3:23 at the end of the stabilization period specified in
Section 5, Paragraph 5.3 of IEC 62301 (First Edition), and use the
average power approach described in Section 5, Paragraph 5.3.2(a) of
IEC 62301 (First Edition), but with a single test period of 10 minutes
+0/-2 sec after an additional stabilization period until the clock time
reaches 3:33.
3.1.2.1.1 If the conventional cooking top has an inactive mode, as
defined in section 1.12 of this appendix, measure and record the
average inactive mode power of the conventional cooking top,
PIA, in watts.
3.1.2.1.2 If the conventional cooking top has an off mode, as
defined in section 1.14 of this appendix, measure and record the
average off mode power of the conventional cooking top, POM,
in watts.
3.1.3 Conventional range standby mode and off mode power. Establish
the standby mode and off mode testing conditions set forth in section
2, Test Conditions, of this appendix. For conventional ranges 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 (Second
Edition) (incorporated by reference; see Sec. 430.3), allow sufficient
time for the conventional range to reach the lower power state before
proceeding with the test measurement. Follow the test procedure as
specified in Section 5, Paragraph 5.3.2 of IEC 62301 (Second Edition)
for testing in each possible mode as described in sections 3.1.3.1 and
3.1.3.2 of this appendix. For units in which power varies as a function
of displayed time in standby mode, set the clock time to 3:23 at the
end of the stabilization period specified in Section 5, Paragraph 5.3
of IEC 62301 (First Edition), and use the average power approach
described in Section 5, Paragraph 5.3.2(a) of IEC 62301 (First
Edition), but with a single test period of 10 minutes +0/-2 sec after
an additional stabilization period until the clock time reaches 3:33.
3.1.3.1 If the conventional range has an inactive mode, as defined
in section 1.12 of this appendix, measure and record the average
inactive mode power of the conventional range, PIA, in
watts.
3.1.3.2 If the conventional range has an off mode, as defined in
section 1.14 of this appendix, measure and record the average off mode
power of the conventional range, POM, in watts.
3.1.4 Microwave oven.
3.1.4.1 Microwave oven test standby mode and off mode power.
Establish the testing conditions set forth in section 2, Test
Conditions, of this appendix. For microwave ovens that drop from a
higher power state to a lower power state as discussed in Section 5,
Paragraph 5.1, Note 1 of IEC 62301 (Second Edition) (incorporated by
reference; see Sec. 430.3), allow sufficient

[[Page 37966]]

time for the microwave oven to reach the lower power state before
proceeding with the test measurement. Follow the test procedure as
specified in Section 5, Paragraph 5.3.2 of IEC 62301 (Second Edition).
For units in which power varies as a function of displayed time in
standby mode, set the clock time to 3:23 and use the average power
approach described in Section 5, Paragraph 5.3.2(a) of IEC 62301 (First
Edition), but with a single test period of 10 minutes +0/-2 sec after
an additional stabilization period until the clock time reaches 3:33.
If a microwave oven is capable of operation in either standby mode or
off mode, as defined in sections 1.18 and 1.14 of this appendix,
respectively, or both, test the microwave oven in each mode in which it
can operate.
3.2 Test measurements.
3.2.1 Conventional oven test energy consumption. If the oven
thermostat controls the oven temperature without cycling on and off,
measure the energy consumed, EO, when the temperature of the
block reaches TO (TO is 234[emsp14][deg]F (130
[deg]C) above the initial block temperature, TI). If the
oven thermostat operates by cycling on and off, make the following
series of measurements: Measure the block temperature, TA,
and the energy consumed, EA, or volume of gas consumed,
VA, at the end of the last ``ON'' period of the conventional
oven before the block reaches TO. Measure the block
temperature, TB, and the energy consumed, EB, or
volume of gas consumed, VB, at the beginning of the next
``ON'' period. Measure the block temperature, TC, and the
energy consumed, EC, or volume of gas consumed, VC, at the
end of that ``ON'' period. Measure the block temperature,
TD, and the energy consumed, ED, or volume of gas
consumed, VD, at the beginning of the following ``ON''
period. Energy measurements for EO, EA,
EB, EC, and ED should be expressed in
watt-hours (kJ) for conventional electric ovens, and volume
measurements for VA, VB, VC, and
VD should be expressed in standard cubic feet (L) of gas for
conventional gas ovens. For a gas oven, measure in watt-hours (kJ) any
electrical energy, EIO, consumed by an ignition device or
other electrical components required for the operation of a
conventional gas oven while heating the test block to TO.
3.2.1.1 Conventional oven average test energy consumption. If the
conventional oven permits baking by either forced convection or without
forced convection and the oven thermostat does not cycle on and off,
measure the energy consumed with the forced convection mode,
(EO)1, and without the forced convection mode,
(EO)2, when the temperature of the block reaches
TO (TO is 234[emsp14][deg]F (130 [deg]C) above
the initial block temperature, TI). If the conventional oven
permits baking by either forced convection or without forced convection
and the oven thermostat operates by cycling on and off, make the
following series of measurements with and without the forced convection
mode: Measure the block temperature, TA, and the energy
consumed, EA, or volume of gas consumed, VA, at
the end of the last ``ON'' period of the conventional oven before the
block reaches TO. Measure the block temperature,
TB, and the energy consumed, EB, or volume of gas
consumed, VB, at the beginning of the next ``ON'' period.
Measure the block temperature, TC, and the energy consumed,
EC, or volume of gas consumed, VC, at the end of
that ``ON'' period. Measure the block temperature, TD, and
the energy consumed, ED, or volume of gas consumed,
VD, at the beginning of the following ``ON'' period. Energy
measurements for EO, EA, EB,
EC, and ED should be expressed in watt-hours (kJ)
for conventional electric ovens, and volume measurements for
VA, VB, VC, and VD should
be expressed in standard cubic feet (L) of gas for conventional gas
ovens. For a gas oven that can be operated with or without forced
convection, measure in watt-hours (kJ) any electrical energy consumed
by an ignition device or other electrical components required for the
operation of a conventional gas oven while heating the test block to
TO using the forced convection mode,
(EIO)1, and without using the forced convection
mode, (EIO)2.
3.2.1.2 Conventional oven fan-only mode energy consumption. If the
conventional oven is capable of operation in fan-only mode, measure the
fan-only mode energy consumption, EOF, expressed in
kilowatt-hours (kJ) of electricity consumed by the conventional oven
for the duration of fan-only mode, using a watt-hour meter as specified
in section 2.9.1.1 of this appendix. Alternatively, if the duration of
fan-only mode is known, the watt-hours consumed may be measured for a
period of 10 minutes in fan-only mode, using a watt-hour meter as
specified in section 2.9.1.1 of this appendix. Multiply this value by
the time in minutes that the conventional oven remains in fan-only
mode, tOF, and divide by 10,000 to obtain EOF.
The alternative approach may be used only if the resulting
EOF is representative of energy use during the entire fan-
only mode.
3.2.1.3 Energy consumption of self-cleaning operation. Measure the
energy consumption, ES, in watt-hours (kJ) of electricity or
the volume of gas consumption, VS, in standard cubic feet
(L) during the self-cleaning test set forth in section 3.1.1.1 of this
appendix. For a gas oven, also measure in watt-hours (kJ) any
electrical energy, EIS, consumed by ignition devices or
other electrical components required during the self-cleaning test.
3.2.1.4 Standby mode and off mode energy consumption. Make
measurements as specified in section 3.1.1.2 of this appendix. If the
conventional oven is capable of operating in inactive mode, as defined
in section 1.12 of this appendix, measure the average inactive mode
power of the conventional oven, PIA, in watts as specified
in section 3.1.1.2.1 of this appendix. If the conventional oven is
capable of operating in off mode, as defined in section 1.14 of this
appendix, measure the average off mode power of the conventional oven,
POM, in watts as specified in section 3.1.1.2.2 of this
appendix.
3.2.1.5 Conventional oven cavity volume. Measure the oven cavity
volume, CVO, in cubic feet (L), as specified in section
3.1.1.3 of this appendix.
3.2.2 Conventional surface unit test energy consumption.
3.2.2.1 Conventional surface unit average test energy consumption.
For the surface unit under test, measure the energy consumption,
ECT, in watt-hours (kJ) of electricity or the volume of gas
consumption, VCT, in standard cubic feet (L) of gas and the
test block temperature, TCT, at the end of the 15 minute
(reduced input setting) test interval for the test specified in section
3.1.2 of this appendix and the total time, tCT, in hours,
that the unit is under test. Measure any electrical energy,
EIC, consumed by an ignition device of a gas heating element
or other electrical components required for the operation of the
conventional gas cooking top in watt-hours (kJ).
3.2.2.2 Conventional surface unit standby mode and off mode energy
consumption. Make measurements as specified in section 3.1.2.1 of this
appendix. If the conventional surface unit is capable of operating in
inactive mode, as defined in section 1.12 of this appendix, measure the
average inactive mode power of the conventional surface unit,
PIA, in watts as specified in section 3.1.2.1.1 of this
appendix. If the conventional surface unit is capable of operating in
off mode, as defined in section 1.14 of this appendix, measure the
average off mode power of the

[[Page 37967]]

conventional surface unit, POM, in watts as specified in
section 3.1.2.1.2 of this appendix.
3.2.3 Conventional range standby mode and off mode energy
consumption. Make measurements as specified in section 3.1.3 of this
appendix. If the conventional range is capable of operating in inactive
mode, as defined in section 1.13 of this appendix, measure the average
inactive mode power of the conventional range, PIA, in watts
as specified in section 3.1.3.1 of this appendix. If the conventional
range is capable of operating in off mode, as defined in section 1.14
of this appendix, measure the average off mode power of the
conventional range, POM, in watts as specified in section
3.1.3.2 of this appendix.
3.2.4 Microwave oven test standby mode and off mode power. Make
measurements as specified in Section 5, Paragraph 5.3 of IEC 62301
(Second Edition) (incorporated by reference; see Sec. 430.3). If the
microwave oven is capable of operating in standby mode, as defined in
section 1.18 of this appendix, measure the average standby mode power
of the microwave oven, PSB, in watts as specified in section
3.1.4.1 of this appendix. If the microwave oven is capable of operating
in off mode, as defined in section 1.14 of this appendix, measure the
average off mode power of the microwave oven, POM, as
specified in section 3.1.4.1.
3.3 Recorded values.
3.3.1 Record the test room temperature, TR, at the start
and end of each range, oven or cooktop test, as determined in section
2.5 of this appendix.
3.3.2 Record the measured test block, test block body, and test
block base weights W1, W2, and W3 in
pounds (kg).
3.3.3 Record the initial temperature, T1, of the test
block under test.
3.3.4 For a conventional oven with a thermostat which operates by
cycling on and off, record the conventional oven test measurements
TA, EA, TB, EB,
TC, EC, TD, and ED for
conventional electric ovens or TA, VA,
TB, VB, TC, VC,
TD, and VD for conventional gas ovens. If the
thermostat controls the oven temperature without cycling on and off,
record EO. For a gas oven which also uses electrical energy
for the ignition or operation of the oven, also record EIO.
3.3.5 For a conventional oven that can be operated with or without
forced convection and the oven thermostat controls the oven temperature
without cycling on and off, measure the energy consumed with the forced
convection mode, (EO)1, and without the forced
convection mode, (EO)2. If the conventional oven
operates with or without forced convection and the thermostat controls
the oven temperature by cycling on and off, record the conventional
oven test measurements TA, EA, TB,
EB, TC, EC, TD, and
ED for conventional electric ovens or TA,
VA, TB, VB, TC,
VC, TD, and VD for conventional gas
ovens. For a gas oven that can be operated with or without forced
convection, measure any electrical energy consumed by an ignition
device or other electrical components used during the forced convection
mode, (EIO)1, and without using the forced
convection mode, (EIO)2.
3.3.6 Record the measured energy consumption, ES, or gas
consumption, VS, and for a gas oven, any electrical energy,
EIS, for the test of the self-cleaning operation of a
conventional oven.
3.3.7 For conventional ovens, record the conventional oven standby
mode and off mode test measurements PIA and POM,
if applicable. For conventional cooktops, record the conventional
cooking top standby mode and off mode test measurements PIA
and POM, if applicable. For conventional ranges, record the
conventional range standby mode and off mode test measurements
PIA and POM, if applicable.
3.3.8 For conventional ovens, record the measured oven cavity
volume, CVO, in cubic feet (L), rounded to the nearest tenth
of a cubic foot (nearest L).
3.3.9 For the surface unit under test, record the electric energy
consumption, ECT, or the gas volume consumption,
VCT, the final test block temperature, TCT, and
the total test time, tCT. For a gas cooking top which uses
electrical energy for ignition of the burners, also record EIC.
3.3.10 Record the heating value, Hn, as determined in
section 2.2.2.2 of this appendix for the natural gas supply.
3.3.11 Record the heating value, Hp, as determined in
section 2.2.2.3 of this appendix for the propane supply.
3.3.12 Record the average standby mode power, PSB, for
the microwave oven standby mode, as determined in section 3.2.4 of this
appendix for a microwave oven capable of operating in standby mode.
Record the average off mode power, POM, for the microwave
oven off mode power test, as determined in section 3.2.4 of this
appendix for a microwave oven capable of operating in off mode.

4. Calculation of Derived Results From Test Measurements

* * * * *
4.1.2.1.1 Annual primary energy consumption. Calculate the annual
primary energy consumption for cooking, ECO, expressed in
kilowatt-hours (kJ) per year for electric ovens and in kBtus (kJ) per
year for gas ovens, and defined as:
[GRAPHIC] [TIFF OMITTED] TR02JY15.158

for electric ovens,

Where:
EO = test energy consumption as measured in section 3.2.1
or as calculated in section 4.1.1 or section 4.1.1.1 of this
appendix.
Ke = 3.412 Btu/Wh (3.6 kJ/Wh,) conversion factor of watt-
hours to Btus.
OO = 29.3 kWh (105,480 kJ) per year, annual useful
cooking energy output of conventional electric oven.
W1 = measured weight of test block in pounds (kg).
Cp = 0.23 Btu/lb-[deg]F (0.96 kJ/kg / [deg]C), specific
heat of test block.
TS = 234[emsp14][deg]F (130 [deg]C), temperature rise of
test block.
[GRAPHIC] [TIFF OMITTED] TR02JY15.159

for gas ovens,

Where:
EO = test energy consumption as measured in section 3.2.1
or as calculated in section 4.1.1 or section 4.1.1.1 of this
appendix.
OO = 88.8 kBtu (93,684 kJ) per year, annual useful
cooking energy output of conventional gas oven.
W1, Cp and TS are the same as
defined above.
* * * * *
4.1.2.2.1 Annual primary energy consumption. Calculate the annual
primary energy consumption for conventional oven self-cleaning
operations, ESC, expressed in kilowatt-hours (kJ) per year
for electric ovens and in kBtus (kJ) for gas ovens, and defined as:

ESC = ES x Se x K, for electric ovens,

Where:
ES = energy consumption in watt-hours, as measured in
section 3.2.1.3 of this appendix.
Se = 4, average number of times a self-cleaning operation
of a conventional electric oven is used per year.
K = 0.001 kWh/Wh conversion factor for watt-hours to kilowatt-hours.
or
ESC VS x H x Sg x K, for gas ovens,

Where:
VS = gas consumption in standard cubic feet (L), as
measured in section 3.2.1.3 of this appendix.
H = Hn or Hp, the heating value of the gas
used in the test as specified in sections 2.2.2.2 and 2.2.2.3 of
this appendix in Btus per standard cubic foot (kJ/L).
Sg = 4, average number of times a self-cleaning operation
of a conventional gas oven is used per year.

[[Page 37968]]

K = 0.001 kBtu/Btu conversion factor for Btus to kBtus
* * * * *
4.1.2.4.3 Conventional gas oven energy consumption. Calculate the
total annual gas energy consumption of a conventional gas oven,
EAOG, expressed in kBtus (kJ) per year and defined as:

EAOG = ECO + ESC,

Where:
ECO = annual primary cooking energy consumption as
determined in section 4.1.2.1.1 of this appendix.
ESC = annual primary self-cleaning energy consumption as
determined in section 4.1.2.2.1 of this appendix.

If the conventional gas oven uses electrical energy, calculate the
total annual electrical energy consumption, EAOE, expressed
in kilowatt-hours (kJ) per year and defined as:

EAOE =ESO +ESS,

Where:
ESO = annual secondary cooking energy consumption as
determined in section 4.1.2.1.2 of this appendix.
ESS = annual secondary self-cleaning energy consumption
as determined in section 4.1.2.2.2 of this appendix.

If the conventional gas oven uses electrical energy, also calculate
the total integrated annual electrical energy consumption,
IEAOE, expressed in kilowatt-hours (kJ) per year and defined
as:

IEAOE = ESO + ESS + EOTLP +
(EOF x NOG),
Where:
ESO = annual secondary cooking energy consumption as
determined in section 4.1.2.1.2 of this appendix.
ESS = annual secondary self-cleaning energy consumption
as determined in section 4.1.2.2.2 of this appendix.
EOTLP = annual combined low-power mode energy consumption
as determined in section 4.1.2.3 of this appendix.
EOF = fan-only mode energy consumption as measured in
section 3.2.1.2 of this appendix.
NOG = representative number of annual conventional gas
oven cooking cycles per year, which is equal to 183 cycles for a
conventional gas oven without self-clean capability and 197 cycles
for a conventional gas oven with self-clean capability.

4.1.2.5 Total annual energy consumption of multiple conventional
ovens and conventional ovens with an oven separator. If the cooking
appliance includes more than one conventional oven or consists of a
conventional oven equipped with an oven separator that allows for
cooking using the entire oven cavity or, if the separator is installed,
splitting the oven into two smaller cavities, calculate the total
annual energy consumption of the conventional oven(s) using the
following equations:
4.1.2.5.1 Conventional electric oven energy consumption. Calculate
the total annual energy consumption, ETO, in kilowatt-hours
(kJ) per year and defined as:

ETO = EACO + EASC

Where:
[GRAPHIC] [TIFF OMITTED] TR02JY15.160

is the average annual primary energy consumption for cooking, and
where:
n = number of conventional ovens in the basic model or, if the
cooking appliance is equipped with an oven separator, the number of
oven cavity configurations.
ECO = annual primary energy consumption for cooking as
determined in section 4.1.2.1.1 of this appendix.
[GRAPHIC] [TIFF OMITTED] TR02JY15.161

is the average annual self-cleaning energy consumption,

Where:

n = number of self-cleaning conventional ovens in the basic model.
ESC = annual primary self-cleaning energy consumption as
determined according to section 4.1.2.2.1 of this appendix.

4.1.2.5.2 Conventional electric oven integrated energy consumption.
Calculate the total integrated annual energy consumption,
IETO, in kilowatt-hours (kJ) per year and defined as:

IETO = EACO + EASC + EOTLP + (EOF x NOE)

Where

[GRAPHIC] [TIFF OMITTED] TR02JY15.162

is the average annual primary energy consumption for cooking, and
where:

n = number of conventional ovens in the cooking appliance or, if the
cooking appliance is equipped with an oven separator, the number of
oven cavity configurations.
ECO = annual primary energy consumption for cooking as
determined in section 4.1.2.1.1 of this appendix.
[GRAPHIC] [TIFF OMITTED] TR02JY15.163

is the average annual self-cleaning energy consumption,

Where:

n = number of self-cleaning conventional ovens in the basic model.
ESC = annual primary self-cleaning energy consumption as
determined according to section 4.1.2.2.1 of this appendix.
EOTLP = annual combined low-power mode energy consumption
for the cooking appliance as determined in section 4.1.2.3 of this
appendix.
EOF = fan-only mode energy consumption as measured in
section 3.2.1.2 of this appendix.
NOE = representative number of annual conventional
electric oven cooking cycles per year, which is equal to 219 cycles
for a conventional electric oven without self-clean capability and
204 cycles for a conventional electric oven with self-clean
capability.

4.1.2.5.3 Conventional gas oven energy consumption. Calculate the total
annual gas energy consumption, ETOG, in kBtus (kJ) per year
and defined as:

ETOG = EACO + EASC

Where:

EACO = average annual primary energy consumption for
cooking in kBtus (kJ) per year and is calculated as:
[GRAPHIC] [TIFF OMITTED] TR02JY15.164

Where:

Where:
n = number of self-cleaning conventional ovens in the basic model.
ESC = annual primary self-cleaning energy consumption as
determined according to section 4.1.2.2.1 of this appendix.

If the oven also uses electrical energy, calculate the total annual
electrical energy consumption, ETOE, in kilowatt-hours (kJ)
per year and defined as:
ETOE = EASO + EAAS
Where:
[GRAPHIC] [TIFF OMITTED] TR02JY15.166

is the average annual secondary energy consumption for cooking,
Where:
n = number of conventional ovens in the basic model or, if the
cooking appliance is equipped with an oven separator, the number of
oven cavity configurations.
ESO = annual secondary energy consumption for cooking of
gas ovens as determined in section 4.1.2.1.2 of this appendix.

[[Page 37969]]

[GRAPHIC] [TIFF OMITTED] TR02JY15.167

is the average annual secondary self-cleaning energy consumption,

Where:

n = number of self-cleaning ovens in the basic model.
ESS = annual secondary self-cleaning energy consumption
of gas ovens as determined in section 4.1.2.2.2 of this appendix.

If the oven also uses electrical energy, also calculate the total
integrated annual electrical energy consumption, IETOE, in
kilowatt-hours (kJ) per year and defined as:

IETOE = EASO + EAAS + EOTLP + (EOF x NOG)
Where:
[GRAPHIC] [TIFF OMITTED] TR02JY15.168

is the average annual secondary energy consumption for cooking,

Where:

n = number of conventional ovens in the basic model or, if the
cooking appliance is equipped with an oven separator, the number of
oven cavity configurations.
ESO = annual secondary energy consumption for cooking of
gas ovens as determined in section 4.1.2.1.2 of this appendix.

[GRAPHIC] [TIFF OMITTED] TR02JY15.169

is the average annual secondary self-cleaning energy consumption,

Where:

n = number of self-cleaning ovens in the basic model.
ESS = annual secondary self-cleaning energy consumption
of gas ovens as determined in section 4.1.2.2.2 of this appendix.
EOTLP = annual combined low-power mode energy consumption
as determined in section 4.1.2.3 of this appendix.
EOF = fan-only mode energy consumption as measured in
section 3.2.1.2 of this appendix.
NOG = representative number of annual conventional gas
oven cooking cycles per year, which is equal to 183 cycles for a
conventional gas oven without self-clean capability and 197 cycles
for a conventional gas oven with self-clean capability.

* * * * *
4.1.3.2 Multiple conventional ovens and conventional ovens with an
oven separator. If the cooking appliance includes more than one
conventional oven or consists of a conventional oven equipped with an
oven separator that allows for cooking using the entire oven cavity or,
if the separator is installed, splitting the oven into two smaller
cavities, calculate the cooking efficiency of the conventional oven(s),
EffTO, using the following equation:
[GRAPHIC] [TIFF OMITTED] TR02JY15.170

Where:
n = number of conventional ovens in the cooking appliance or, if the
cooking appliance is equipped with an oven separator, the number of
oven cavity configurations.
EffAO = cooking efficiency of each oven determined
according to section 4.1.3.1 of this appendix.
* * * * *
4.1.4.1 Conventional oven energy factor. Calculate the energy
factor, or the ratio of useful cooking energy output to the total
energy input, RO, using the following equations:
[GRAPHIC] [TIFF OMITTED] TR02JY15.171

For electric ovens,

Where:

OO = 29.3 kWh (105,480 kJ) per year, annual useful
cooking energy output.
EAO = total annual energy consumption for electric ovens
as determined in section 4.1.2.4.1 of this appendix.

For gas ovens:
[GRAPHIC] [TIFF OMITTED] TR02JY15.172

Where:

OO = 88.8 kBtu (93,684 kJ) per year, annual useful
cooking energy output.
EAOG = total annual gas energy consumption for
conventional gas ovens as determined in section 4.1.2.4.3 of this
appendix.
EAOE = total annual electrical energy consumption for
conventional gas ovens as determined in section 4.1.2.4.3 of this
appendix.
Ke = 3.412 kBtu/kWh (3,600 kJ/kWh), conversion factor for
kilowatt-hours to kBtus.
4.1.4.2 Conventional oven integrated energy factor. Calculate the
integrated energy factor, or the ratio of useful cooking energy output
to the total integrated energy input, IRO, using the
following equations:
[GRAPHIC] [TIFF OMITTED] TR02JY15.173

For electric ovens,

Where:

OO = 29.3 kWh (105,480 kJ) per year, annual useful
cooking energy output.
IEAO = total integrated annual energy consumption for
electric ovens as determined in section 4.1.2.4.2 of this appendix.
For gas ovens:
[GRAPHIC] [TIFF OMITTED] TR02JY15.174

Where:

4.2 Conventional cooking top.
4.2.1 Surface unit cooking efficiency.
* * * * *
4.2.1.2 Gas surface unit cooking efficiency. Calculate the cooking
efficiency, EffSU, of the gas surface unit under test,
defined as:
[GRAPHIC] [TIFF OMITTED] TR02JY15.175

Where:

W3 = measured weight of test block as measured in section
3.3.2 of this appendix, expressed in pounds (kg).
Cp, and TSU are the same as defined in section
4.2.1.1 of this appendix.
and,
E = (VCT x H) + (EIC x Ke),

Where:

VCT = total gas consumption in standard cubic feet (L)
for the gas surface unit test as measured in section 3.2.2.1 of this
appendix.
EIC = electrical energy consumed in watt-hours (kJ) by an
ignition device of a gas surface unit as measured in section 3.2.2.1
of this appendix.
Ke = 3.412 Btu/Wh (3.6 kJ/Wh), conversion factor of watt-
hours to Btus.
H = either Hn or Hp, the heating value of the
gas used in the test as specified in sections 2.2.2.2 and 2.2.2.3 of
this appendix, expressed in Btus per standard cubic foot (kJ/L) of
gas.
* * * * *
4.2.2.2.1 Annual cooking energy consumption. Calculate the annual
energy consumption for cooking, ECC, in kBtus (kJ) per year
for a gas cooking top, defined as:
[GRAPHIC] [TIFF OMITTED] TR02JY15.176

Where:

OCT = 527.6 kBtu (556,618 kJ) per year, annual useful
cooking energy output.
EffCT = the gas cooking top efficiency as defined in
section 4.2.1.3 of this appendix.

[[Page 37970]]

4.2.2.2.2 Total integrated annual energy consumption of a
conventional gas cooking top. Calculate the total integrated annual
energy consumption of a conventional gas cooking top, IECA,
in kBtus (kJ) per year, defined as:

IECA= ECC + (ECTSO x Ke)
Where:

ECC = energy consumption for cooking as determined in
section 4.2.2.2.1 of this appendix.
ECTSO = conventional cooking top combined low-power mode
energy consumption = [(PIA x SIA) +
(POM x SOM)] x K,

Where:

PIA = conventional cooking top inactive mode power, in
watts, as measured in section 3.1.2.1.1 of this appendix.
POM = conventional cooking top off mode power, in watts,
as measured in section 3.1.2.1.2 of this appendix.
If the conventional cooking top has both inactive mode and off mode
annual hours, SIA and SOM both equal 4273.4;
If the conventional cooking top has an inactive mode but no off
mode, the inactive mode annual hours, SIA, is equal to
8546.9, and the off mode annual hours, SOM, is equal to
0;
If the conventional cooking top has an off mode but no inactive
mode, SIA is equal to 0, and SOM is equal to
8546.9;
K = 0.001 kWh/Wh conversion factor for watt-hours to kilowatt-hours.
Ke = 3.412 kBtu/kWh (3,600 kJ/kWh), conversion factor for
kilowatt-hours to kBtus.
* * * * *
4.2.3.2 Conventional cooking top integrated energy factor.
Calculate the integrated energy factor or ratio of useful cooking
energy output for cooking to the total integrated energy input,
IRCT, as follows:
For electric cooking tops,
[GRAPHIC] [TIFF OMITTED] TR02JY15.177

Where:
OCT = 173.1 kWh (623,160 kJ) per year, annual useful
cooking energy output of cooking top.
IECA = total annual integrated energy consumption of
cooking top determined according to section 4.2.2.1.2 of this
appendix.

For gas cooking tops,
[GRAPHIC] [TIFF OMITTED] TR02JY15.178

Where:

OCT = 527.6 kBtu (556,618 kJ) per year, annual useful
cooking energy output of cooking top.
IECA = total integrated annual energy consumption of
cooking top determined according to section 4.2.2.2.2 of this
appendix.
* * * * *

[FR Doc. 2015-15886 Filed 7-1-15; 8:45 am]
BILLING CODE 6450-01-P

37954 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

Issued in Washington, DC, on June 25, documents/materials, is available for D. Review Under the National
2015. review at regulations.gov. All Environmental Policy Act of 1969
Kathleen B. Hogan, documents in the docket are listed in E. Review Under Executive Order 13132
the regulations.gov index. However, F. Review Under Executive Order 12988
Deputy Assistant Secretary for Energy
G. Review Under the Unfunded Mandates
Efficiency, Energy Efficiency and Renewable some documents listed in the index, Reform Act of 1995
Energy. such as those containing information H. Review Under the Treasury and General
[FR Doc. 2015–16342 Filed 7–1–15; 8:45 am] that is exempt from public disclosure, Government Appropriations Act, 1999
BILLING CODE 6450–01–P may not be publicly available. I. Review Under Executive Order 12630
A link to the docket Web page can be J. Review Under Treasury and General
found at: http://www.regulations.gov/ Government Appropriations Act, 2001
DEPARTMENT OF ENERGY #!docketDetail;D=EERE-2012-BT-TP- K. Review Under Executive Order 13211
0013 . This Web page will contain a link L. Review Under Section 32 of the Federal
10 CFR Part 430 to the docket for this notice on the Energy Administration Act of 1974
regulations.gov site. The regulations.gov M. Congressional Notification
[Docket No. EERE–2012–BT–TP–0013] N. Approval of the Office of the Secretary
Web page will contain simple
RIN 1904–AC71 instructions on how to access all I. Authority and Background
documents, including public comments,
Energy Conservation Program: Test Title III of the Energy Policy and
in the docket.
Procedures for Conventional Ovens For further information on how to Conservation Act of 1975 (42 U.S.C.
review the docket, contact Ms. Brenda 6291, et seq.; ‘‘EPCA’’ or, ‘‘the Act’’) sets
AGENCY: Office of Energy Efficiency and forth a variety of provisions designed to
Renewable Energy, Department of Edwards at (202) 586–2945 or by email:
Brenda.Edwards@ee.doe.gov. improve energy efficiency. (All
Energy. references to EPCA refer to the statute
ACTION: Final rule. FOR FURTHER INFORMATION CONTACT:
Ms. Ashley Armstrong, U.S. as amended through the Energy
Department of Energy, Office of Energy Efficiency Improvement Act of 2015,
SUMMARY: On December 3, 2014, the Public Law 114–11 (Apr. 30, 2015). Part
U.S. Department of Energy (DOE) issued Efficiency and Renewable Energy,
Building Technologies Office, EE–2J, B of Title III, which for editorial reasons
a supplemental notice of proposed was redesignated as Part A upon
rulemaking (SNOPR) to amend the test 1000 Independence Avenue SW.,
Washington, DC, 20585–0121. incorporation into the U.S. Code (42
procedures for conventional cooking U.S.C. 6291–6309, as codified),
products. The oven-related procedures Telephone: (202) 586–6590. Email:
ashley.armstrong@ee.doe.gov. establishes the ‘‘Energy Conservation
proposed in that rulemaking serve as the Program for Consumer Products Other
basis for this final rule. As part of the Ms. Celia Sher, U.S. Department of
Energy, Office of the General Counsel, Than Automobiles.’’ These include
SNOPR, DOE proposed to incorporate cooking products,1 and specifically
methods for measuring conventional GC–33, 1000 Independence Avenue
SW., Washington, DC, 20585–0121. consumer conventional ovens, the
oven volume, clarified that the existing subject of this document. (42 U.S.C.
oven test block must be used to test all Telephone: (202) 287–6122. Email:
Celia.Sher@hq.doe.gov. 6292(a)(10))
ovens regardless of input rate, and Under EPCA, the energy conservation
proposed a method to measure the SUPPLEMENTARY INFORMATION: This final
program consists essentially of four
energy consumption of conventional rule incorporates by reference into part
parts: (1) Testing, (2) labeling, (3)
ovens equipped with an oven separator. 430 the following industry standard:
AHAM OV–1–2011, (‘‘AHAM OV– Federal energy conservation standards,
Additionally, DOE proposed technical and (4) certification and enforcement
corrections to the units of measurement 1’’), Procedures for the Determination
and Expression of the Volume of procedures. The testing requirements
in certain calculations. This final rule consist of test procedures that
amends the current procedure to Household Microwave and
Conventional Ovens, (2011). manufacturers of covered products must
include the proposed changes listed use as the basis for (1) certifying to DOE
above, as well as clarifications to certain Copies of AHAM standard can be
purchased from the Association of that their products comply with the
definitions, that will take effect 30 days applicable energy conservation
after the final rule publication date. Home Appliance Manufacturers, 1111
19th Street NW., Suite 402, Washington standards adopted under EPCA, and (2)
These changes will be mandatory for making representations about the
product testing to demonstrate DC 20036, 202–872–5955, or
www.aham.org. efficiency of those products. Similarly,
compliance with any new or amended DOE must use these test procedures to
energy conservation standards when This AHAM standard is discussed
further in section III.D. determine whether the products comply
they take effect and for representations with any relevant standards
of the energy consumption of Table of Contents promulgated under EPCA.
conventional ovens starting 180 days I. Authority and Background
after publication. A. General Test Procedure Rulemaking A. General Test Procedure Rulemaking
DATES: The effective date of this rule is Process Process
August 3, 2015. The final rule changes B. Test Procedures for Cooking Products
Under 42 U.S.C. 6293, EPCA sets forth
C. The January 2013 NOPR
asabaliauskas on DSK5VPTVN1PROD with FRONTMATTER

will be mandatory for product testing D. The December 2014 SNOPR the criteria and procedures DOE must
starting December 29, 2015. The E. Conventional Cooking Top Active Mode
incorporation by reference of certain Test Procedures 1 DOE’s regulations define kitchen ranges and

publications listed in this rule was II. Summary of the Final Rule ovens, or ‘‘cooking products’’, as one of the
III. Discussion following classes: Conventional ranges,
approved by the Director of the Federal conventional cooking tops, conventional ovens,
Register as of August 3, 2015. IV. Procedural Issues and Regulatory Review microwave ovens, microwave/conventional ranges
A. Review Under Executive Order 12866 and other cooking products. (10 CFR 430.2) Based
ADDRESSES: The docket, which includes B. Review Under the Regulatory Flexibility on this definition, DOE interprets kitchen ranges
Federal Register notices, public meeting Act and ovens to refer more generally to all types of
attendee lists and transcripts, C. Review Under the Paperwork Reduction cooking products including, for example,
comments, and other supporting Act of 1995 microwave ovens.

VerDate Sep<11>2014 23:22 Jul 01, 2015 Jkt 235001 PO 00000 Frm 00032 Fmt 4700 Sfmt 4700 E:\FR\FM\02JYR1.SGM 02JYR1

Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations 37955

follow when prescribing or amending cooking energy input), and energy factor D. The December 2014 SNOPR
test procedures for covered products. (defined as the ratio of annual useful On December 3, 2014, DOE published
EPCA provides that any test procedures cooking energy output to total annual a supplemental NOPR (SNOPR) (79 FR
prescribed or amended under this energy input). 10 CFR 430.23(i); 71894, hereinafter referred to as the
section shall be reasonably designed to Appendix I. These provisions for December 2014 SNOPR), modifying its
produce test results which measure conventional cooking products are not proposal from the January 2013 NOPR
energy efficiency, energy use or currently used for compliance with any to more accurately measure the energy
estimated annual operating cost of a energy conservation standards because efficiency of induction cooking tops.
covered product during a representative the present standards are design DOE proposed to add a layer of thermal
average use cycle or period of use and requirements, and there is not an grease between the stainless steel base
shall not be unduly burdensome to EnergyGuide 2 labeling program for and aluminum body of the hybrid test
conduct. (42 U.S.C. 6293(b)(3)) cooking products. block to facilitate heat transfer between
In addition, if DOE determines that a the two pieces. DOE also proposed
test procedure amendment is warranted, DOE subsequently conducted a
rulemaking to address standby and off additional test equipment for electric
it must publish proposed test surface units with large diameters (both
procedures and offer the public an mode energy consumption, as well as
certain active mode testing provisions, induction and electric resistance) and
opportunity to present oral and written gas cooking top burners with high input
comments on them. (42 U.S.C. for dishwashers, dehumidifiers, and
conventional cooking products. DOE rates. 79 FR 71894 (Dec. 3, 2014). In
6293(b)(2)) Finally, in any rulemaking to addition, DOE proposed methods to test
amend a test procedure, DOE must published a final rule on October 31,
2012 (77 FR 65942, hereinafter referred non-circular electric surface units,
determine to what extent, if any, the electric surface units with flexible
proposed test procedure would alter the to as the October 2012 Final Rule),
adopting standby and off mode concentric cooking zones, and full-
measured energy efficiency of any surface induction cooking tops. Id.
covered product as determined under provisions that satisfy the EPCA
Furthermore, DOE proposed to
the existing test procedure. (42 U.S.C. requirement that DOE include measures
incorporate methods for measuring
6293(e)(1)) of standby mode and off mode energy
conventional oven volume, clarify that
This final rule fulfills, in part, DOE’s consumption in its test procedures for
the existing oven test block must be
obligation to periodically review its test residential products, if technically
used to test all ovens regardless of input
procedures under 42 U.S.C. feasible. (42 U.S.C.6295(gg)(2)(A)) rate, and provide a method to measure
6293(b)(1)(A). DOE anticipates that its
C. The January 2013 NOPR the energy consumption and efficiency
next evaluation of this test procedure for
of conventional ovens equipped with an
conventional ovens will occur in a On January 30, 2013, DOE published oven separator. Id.
manner consistent with the timeline set a NOPR (78 FR 6232, hereinafter
out in this provision. referred to as the January 2013 NOPR) E. Conventional Cooking Top Active
proposing amendments to Appendix I Mode Test Procedures
B. Test Procedures for Cooking Products
that would allow for measuring the DOE received a number of comments
DOE’s test procedures for
active mode energy consumption of from interested parties on the cooking
conventional ranges, conventional
induction cooking products; i.e., top active mode test procedure
cooking tops, conventional ovens, and
conventional cooking tops and ranges proposed in the December 2014 SNOPR.
microwave ovens are codified at
appendix I to subpart B of Title 10 of the equipped with induction heating The majority of comments stated that
Code of Federal Regulations (CFR) part technology for one or more surface additional analysis was necessary before
430 (Appendix I). units 3 on the cooking top. DOE establishing a test procedure for
DOE established the test procedures proposed to incorporate induction conventional cooking tops. AHAM
in a final rule published in the Federal cooking tops by amending the definition requested an extension of the comment
Register on May 10, 1978. 43 FR 20108, of ‘‘conventional cooking top’’ to period for the December 2014 SNOPR,
20120–20128. DOE revised its test include induction heating technology. citing the difficulty its members had
procedures for cooking products to more Furthermore, DOE proposed to require procuring the specified test equipment
accurately measure their efficiency and for all cooking tops the use of test materials. Therefore, AHAM stated,
energy use, and published the revisions equipment compatible with induction many manufacturers were not able to
as a final rule in 1997. 62 FR 51976 technology. Specifically, DOE proposed properly assess the new specifications,
(Oct. 3, 1997). These test procedure to replace the solid aluminum test testing variation, repeatability, and
amendments included: (1) A reduction blocks currently specified in the test reproducibility of the proposed test
in the annual useful cooking energy; (2) procedure for cooking tops with hybrid procedure before the comment period
a reduction in the number of self- test blocks comprising two separate closed. (AHAM, No. 14 at p. 1) 4 AHAM
cleaning oven cycles per year; and (3) pieces: An aluminum body and a also expressed concern with DOE’s
incorporation of portions of stainless steel base. In the January 2013 choice to pursue an accelerated
International Electrotechnical NOPR, DOE also proposed amendments rulemaking schedule for cooking
Commission (IEC) Standard 705–1988, to include a clarification that the test products, stating that the rulemaking
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‘‘Methods for measuring the block size be determined using the schedule did not allow for a thorough
performance of microwave ovens for smallest dimension of the electric technical examination. AHAM asked
household and similar purposes,’’ and surface unit. 78 FR 6232 (Jan. 30, 2013). 4 A notation in the form ‘‘AHAM, No. 14 at p. 1’’
Amendment 2–1993 for the testing of identifies a written comment (1) made by AHAM;
microwave ovens. Id. The test 2 For more information on the EnergyGuide
(2) recorded in document number 14 that is filed
procedures for conventional cooking labeling program, see: www.access.gpo.gov/nara/ in the docket of this cooking products test
products establish provisions for cfr/waisidx_00/16cfr305_00.html. procedures rulemaking (Docket No. EERE–2012–
3 The term surface unit refers to burners for gas BT–TP–0013) and maintained in the Resource
determining estimated annual operating cooking tops, electric resistance heating elements Room of the Building Technologies Program; and
cost, cooking efficiency (defined as the for electric cooking tops, and inductive heating (3) which appears on page 1 of document number
ratio of cooking energy output to elements for induction cooking tops. 14.

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37956 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

DOE to seek additional input from to serve as the basis for establishing a • Difficulty testing induction cooking
interested parties on the December 2014 standard. (GE, No. 17 at p. 3) tops that use different programming
SNOPR and commented that the The California IOUs also stated that techniques to prevent overheating (some
proposed cooking top test procedure they prefer an alternative to the hybrid manufacturers observed that power to
may result in technical problems. test block and recommended that DOE the heating elements cut off prematurely
(AHAM, No. 18 at pp. 1–2) require water-heating test methods to during testing with the hybrid test block
BSH Home Appliances Corporation measure the cooking efficiency of even after adding thermal grease); and
(BSH) and General Electric Appliances conventional cooking tops. Specifically, • The need for larger test block sizes
(GE) stated that delays associated with the California IOUs requested that DOE to test electric surface units having 12-
acquiring the hybrid test block materials align the residential cooking product inch and 13-inch diameters and gas
necessitated additional time for them to test methods with existing industry test surface units with high input rates.
evaluate DOE’s proposal. (BSH, No. 16 procedures, such as American Society Interviewed manufacturers that
at p. 2; GE, No. 17 at p. 1) BSH for Testing and Materials (ASTM) produce and sell products in Europe
commented that the proposed hybrid standard F1521–12, Standard Test uniformly supported the use of a water-
test block method did not include Methods for Performance of Range Tops, heating test method and harmonization
certain specifications necessary for test and IEC Standard 60350–2, Household with IEC Standard 60350–2 for
procedure reproducibility, such as test electric cooking appliances—Part 2: measuring the energy consumption of
load sizing and positioning, and Hobs—Methods for measuring electric cooking tops. These
recommended that DOE consider the performance. (California IOUs, No. 19 at manufacturers cited the benefits of
specifications in International p. 1) The California IOUs commented adopting a test method similar to the
Electrotechnical Commission (IEC) that they plan to conduct additional IEC water-heating method as including:
Standard 60350–2 Edition 2, testing to better characterize the (1) Compatibility with all electric
‘‘Household electric appliances—Part 2: differences between the water-heating cooking top types, (2) additional test
Hobs—Method for measuring and hybrid test block test procedures, vessel diameters to account for the
performance’’ (IEC Standard 60350–2). and will provide these results to DOE. variety of surface unit sizes on the
(BSH, No. 16 at p. 1) Further, AHAM, According to the California IOUs, the market, and (3) the test load’s ability to
BSH, and GE suggested that DOE specify represent a real-world cooking top load.
differences in test procedure standard
additional test block diameters because After reviewing public comments and
deviation between the hybrid test block
these commenters asserted that the information received during
and water-heating test method as manufacturer interviews, as well as
proposed test block sizes do not presented in the December 2014 SNOPR
adequately reflect surface unit sizes performing additional analyses, DOE
did not sufficiently show that the hybrid concluded that further study is required
currently available on the market. (BSH, test block method is more repeatable
No. 16 at p. 5; GE, No. 17 at p 2; AHAM, before a cooking top test procedure can
than a water-heating method. (California be established that produces test results
No. 18 at p. 2) IOUs, No. 19 at p. 2) Additionally, the
Interested parties also expressed a which measure energy use during a
California IOUs believe cooking representative average use cycle, is
significant number of concerns with the
efficiencies derived using a water- repeatable and reproducible, and is not
use of thermal grease. GE noted that
since receiving DOE’s proposal, it has heating test method are more unduly burdensome to conduct. For
not been able to replicate the DOE test representative of the actual cooking these reasons, this final rule addresses
results using the methods described. performance of cooking tops as opposed test methods for conventional ovens
(GE, No. 17 at p. 2) Specifically, GE to a test procedure using hybrid test only, including conventional ovens that
observed during its testing that the blocks, since many foods prepared on are a part of conventional ranges. This
aluminum body slid off the stainless cooktops have relatively high liquid final rule also addresses minor technical
steel base, the thermal grease dried out, content. (California IOUs, No. 19 at p. 1) corrections to existing calculations and
and the amount of grease between the In February and March of 2015, DOE definitions in Appendix I for both
blocks changed from one test to another. conducted a series of interviews with conventional cooking tops and ovens.
(GE, No. 17 at p. 2) AHAM, BSH, and manufacturers of conventional cooking DOE plans to address test procedures
GE requested that DOE specify an products representing the majority of for cooking tops in a separate
operating temperature range for the the U.S. market to discuss key issues rulemaking in order to consider any
thermal grease as well as an application with the proposed cooking top test additional data and information that
thickness, but also noted that the procedure. Manufacturers agreed that will allow it to further conduct the
thermal conductivity and viscosity of the hybrid test block method, as analysis of cooking tops, particularly
the grease may change over time or after proposed, presented many issues which when using a water-heating method to
repeated use at high temperatures. had not yet been addressed, and which evaluate energy consumption. As part of
(BSH, No. 16 at p. 11; GE, No. 17 at p. left the repeatability and reproducibility that rulemaking, DOE will carefully
2; AHAM, No. 18 at p. 3) GE further of the test procedure in question. These consider and address remaining cooking
commented that the variation concerns were similar to those top-related comments on the December
introduced by the hybrid test block due expressed in written comments but were 2014 SNOPR.
to the inability to reliably maintain the received from a larger group of
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specified flatness, thermal grease, and manufacturers and included: II. Summary of the Final Rule
inadequate sizing, may be small • Difficulty obtaining the hybrid test This final rule amends the current
individually, but collectively result in a block materials; DOE test procedure for conventional
test procedure that cannot reliably • Difficulty obtaining and applying ovens. These changes will primarily
discern efficiency differences between the thermal grease without more clarify the manner in which to test for
similar products, alternate technology detailed specifications (i.e., thermal compliance with potential energy
options, and product classes. Thus, GE conductivity alone was not sufficient to conservation standards for conventional
believes the proposal for conventional identify a grease that performed ovens. The final rule establishes that the
cooking tops in the December 2014 according to DOE’s descriptions in the existing oven test block should be used
SNOPR results in too much variability December 2014 SNOPR); to test all ovens, including ovens having

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Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations 37957

input rates greater than 22,500 British III. Discussion commercial-style gas ovens), as these
thermal units per hour (Btu/h). The final products are household cooking
A. Products Covered by This Test
rule additionally amends the current appliances with compartments intended
Procedure Rulemaking
DOE test procedure to include test for the cooking or heating of food by
methods for conventional ovens As discussed in section I of this final means of a gas flame.
equipped with an oven separator. rule, section 6292(a)(10) of EPCA covers Sub-Zero Group, Inc. (Sub-Zero)
Conventional ovens equipped with an kitchen ranges and ovens, or ‘‘cooking commented that DOE’s findings based
oven separator shall be tested in each products.’’ DOE’s regulations define on manufacturer feedback in the
‘‘cooking products’’ as consumer previous energy conservation standards
possible oven configuration (i.e., full
products that are used as the major rulemaking are still relevant.
oven cavity, upper cavity, and lower
household cooking appliances. They are Specifically, the small market size, the
cavity), with the results averaged. limited energy savings potential, and
designed to cook or heat different types
Because Appendix I does not of food by one or more of the following the lack of energy consumption data for
currently contain a measure of sources of heat: Gas, electricity, or ovens with high input rates are reasons
conventional oven volume, the final microwave energy. Each model may to exclude these products from
rule incorporates by reference in the consist of a horizontal cooking top coverage. (Sub-Zero, No. 20 at pp. 2, 3)
DOE test procedure the relevant sections containing one or more surface units 5 Sub-Zero further commented that ‘‘high
of AHAM Standard OV–1–2011 and/or one or more heating performance’’ is a better descriptor of
‘‘Procedures for the Determination and compartments. Cooking products cooking products with high input rates
Expression of the Volume of Household include the following classes: rather than ‘‘commercial-style,’’ noting
Microwave and Conventional Ovens’’ Conventional ranges, conventional that the ‘‘high performance’’ segment
(AHAM–OV–1–2011) for determining cooking tops, conventional ovens, appeals to consumers demanding
conventional oven cavity volume. As microwave ovens, microwave/ restaurant-style cooking performance in
conventional ranges and other cooking their homes. (Sub-Zero, No. 20 at p. 2)
part of its rulemaking that is considering
products. (10 CFR 430.2) In this final Sub-Zero suggested that high
amended standards for conventional
rule, DOE is addressing test procedures performance (i.e., ‘‘commercial-style’’)
ovens, DOE proposed standards as a products be defined as cooking products
function of oven cavity volume. for conventional ovens.
DOE notes that conventional ranges that offer residential consumers
Additionally, this final rule is are defined in 10 CFR 430.2 as a class restaurant-quality performance at a
clarifying the current definitions for of kitchen ranges and ovens which is a safety and convenience level that is
‘‘freestanding’’ and ‘‘built-in’’ household cooking appliance, acceptable for residential use. (Sub-
installation configurations. Because the consisting of a conventional cooking top Zero, No. 20 at p. 2)
manufacturer instructions of some and one or more conventional ovens. DOE excluded ‘‘commercial-style’’
conventional ovens state the oven can Because ranges consist of both a cooking conventional gas ovens from its analysis
be used in either a freestanding or built- top and at least one oven, any potential in the previous energy conservation
in configuration, this final rule is cooking top energy conservation standards rulemaking due to a lack of
clarifying that ovens with this option be standard or oven energy conservation available data for determining efficiency
standard would apply to each of these characteristics of those products. 74 FR
tested in the built-in configuration, as
cooking systems individually. Thus, the 16040, 16054 (Apr. 8, 2009); 72 FR
ovens designed to be used in a built-in
test procedures presented in this final 64432, 64444–64445 (Nov. 15, 2007). As
configuration incorporate fan-only mode discussed in section III.C of this final
for thermal management, and the energy rule also apply to the oven portion of a
rule, DOE conducted testing in support
consumption of these products is likely conventional range.
of the December 2014 SNOPR that
higher than for comparable ovens As part of the previous energy
demonstrated that the existing
designed for use only in a freestanding conservation standards rulemaking for
conventional oven test procedure is
configuration. Furthermore, the final conventional cooking products, DOE
appropriate for ovens with high input
rule is clarifying the term ‘‘self-cleaning decided not to analyze conventional gas
rates. Additionally, DOE is not aware of
operation’’ when referring to an oven’s cooking products with higher burner
any data or test procedures that
self-cleaning process. The existing test input rates, including products
establish whether a conventional oven
marketed as ‘‘commercial-style’’ or
procedure in Appendix I does not with burner input rates greater than
‘‘professional-style,’’ in its consideration
include an explicit definition, although 22,500 Btu/h delivers ‘‘restaurant-
of energy conservation standards due to quality performance’’ as compared to an
section 3 of Appendix I, Test Methods
a lack of available data for determining oven with burner input rates lower than
and Measurements, requires the efficiency characteristics of those
measurement of self-cleaning operation. 22,500 Btu/h. Furthermore, through
products. At the time, DOE considered testing, reverse engineering analyses,
Finally, the final rule includes commercial-style ovens to be gas ovens and discussions with manufacturers
technical corrections to the calculation with burner input rates greater than conducted in support of the concurrent
of derived results from test 22,500 Btu/h. 74 FR 16040, 16054 (Apr. energy conservation standards
measurements in section 4 of Appendix 8, 2009); 72 FR 64432, 64444–64445 rulemaking for cooking products, DOE
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I. Section 4 contains a number of (Nov. 15, 2007). In the December 2014 determined that the primary
references to incorrect units of SNOPR, DOE noted that the current differentiation between conventional
measurement and an incorrect value for definitions for ‘‘conventional oven’’ and gas ovens with lower burner input rates
the annual useful cooking energy output ‘‘conventional range’’ in 10 CFR 430.2 and those with higher input rates,
for gas cooking tops. The final rule also already cover conventional gas ovens including those marketed as
restores headings for sections 4.2 and with higher input rates (including commercial-style, was design and
4.2.1 in Appendix I regarding the construction related to aesthetics rather
5 The term surface unit refers to burners for gas
calculations for conventional cooking than improved cooking performance.
cooking tops, electric resistance heating elements
tops, which were inadvertently removed for electric cooking tops, and inductive heating Some examples of design and
in the October 2012 Final Rule. elements for induction cooking tops. construction related features include

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37958 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

heavier gauge cavity walls, extra interior oven is 325 ± 5 degrees Fahrenheit (°F) input rates. Thus, the thermal losses
support structure for heavier gauge higher than the room ambient air from the cavity are driven largely by
racks, and ball-bearing extension racks. temperature (77 ± 9 °F). An 8.5-pound input rate alone and do not change
These features add to the overall (6.25-inch diameter) cylindrical greatly with increased test block size. 79
thermal mass that must be heated anodized aluminum test block is then FR 71915–71916 (December 3, 2014).
during the baking process but do not heated in the oven from ambient room Sub-Zero stated that the proposed test
necessarily improve cooking air temperature ± 4 °F until the test procedure does not accurately measure
performance. block temperature has increased 234 °F the performance and efficiency of the
For these reasons, DOE notes in this above its initial temperature. If an oven larger, higher-output components. (Sub
final rule that the current definitions for permits baking by either forced
‘‘conventional oven’’ and ‘‘conventional Zero, No. 20 at p. 2) Additionally, Sub-
convection by using a fan, or without Zero commented that an analysis based
range’’ in 10 CFR 430.2 already cover forced convection, the oven is tested
conventional gas ovens with higher largely on 30-inch wide gas or electric
using the procedure described above in ranges cannot adequately evaluate the
input rates (including commercial-style each of those two cooking modes. After
gas ovens), as these products are very different performance attributes
the baking test(s), if the oven is offered by high-performance products
household cooking appliances with equipped with a self-cleaning function,
compartments intended for the cooking which are essential to consumer utility.
the self-cleaning process is initiated in
or heating of food by means of a gas (Sub-Zero, No. 20 at p. 2) Thus, Sub-
accordance with the manufacturer’s
flame. Zero believes that DOE’s conclusion that
instruction and allowed to run until
the existing test procedure in Appendix
B. Effective Date completion. The measured energy
I is appropriate for ovens with high
consumption during these test cycles is
The amended test procedure becomes input rates is incorrect. (Sub-Zero, No.
used to calculate the oven’s cooking
effective 30 days after this test 20 at p. 3) Sub-Zero requested that high
efficiency and integrated annual energy
procedure final rule is published in the performance products be exempted
consumption (IAEC).6
Federal Register. Pursuant to EPCA, DOE’s review of the gas oven cavity until adequate further analysis is
manufacturers of covered products must volumes currently available on the U.S. conducted such that these products can
use the applicable test procedure as the market indicated that there is significant be accurately and fairly evaluated. (Sub
basis for determining that their products overlap in oven cavity volume between Zero, No. 20 at p. 3)
comply with the applicable energy products marketed as standard, In support of the December 2014
conservation standards adopted SNOPR and in support of the parallel
residential-styleovens and those
pursuant to EPCA and for making energy conservation standards
marketed as commercial-style ovens.
representations about the efficiency of
The primary differentiating factor rulemaking for conventional ovens, DOE
those products. (42 U.S.C. 6293(c); 42
between the two oven types was burner tested eight conventional gas ovens that
U.S.C. 6295(s)) Beginning 180 days after
input rate, which is greater than 22,500 were selected to capture a range of
publication of this test procedure final
Btu/h for most commercial-style gas design features that might impact
rule, representations related to the
ovens. In the December 2014 SNOPR, performance, including infrared
energy consumption of conventional
DOE investigated the effect of increasing broilers, convection fans, and hidden
ovens must be based upon results
oven test block size on oven cooking bake elements. The basic design features
generated under the applicable
provisions of the amended test efficiency. DOE sought to determine and measured IAEC are shown in Table
procedure in Appendix I. (42 U.S.C. whether a larger test block would III–1. The test sample included 30-inch
6293(c)(2)) provide a more representative measure wide models as well as models with
of cooking efficiency at higher input widths greater than 30 inches. DOE
C. Gas Ovens With Input Rates Greater rates. DOE also sought to determine observed that many of the same features
Than 22,500 Btu/h whether the smaller block was found in gas ovens marketed as
Because DOE is considering in a inadequate to properly measure the commercial-style were also available in
separate rulemaking energy efficiency of commercial-style ovens. In ovens marketed as residential-style. By
conservation standards for conventional its testing, DOE found that while comparing the design features and the
ovens, including gas ovens with high cooking efficiency increased with the measured energy consumption of the
input rates, DOE evaluated the larger test block, it scaled by ovens in its test sample, DOE
appropriateness of the existing test approximately the same factor for all determined that the major
methods in Appendix I for use with ovens tested regardless of a particular differentiation between conventional
conventional gas ovens that have burner oven’s input rate or cavity volume, or gas ovens with lower burner input rates
input rates greater than 22,500 Btu/h. In whether the oven was marketed as and those with higher input rates,
the December 2014 SNOPR, DOE residential-style or commercial-style. including those marketed as
proposed that the existing test methods The relative ranking of cooking commercial-style, was design and
in Appendix I should be used to test efficiency for ovens with high input construction related to aesthetics rather
ovens with high input rates, including rates as compared to ovens with input than improved cooking performance.
gas ovens marketed as commercial-style. rates lower than 22,500 Btu/h did not Available information also indicates
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79 FR 71916 (December 3, 2014). change with increased test block size. that the high thermal mass of products
The current active mode test This suggested that thermal losses are marketed as commercial-style likely
procedure for conventional ovens large enough in comparison to the heat lead to a low oven cooking efficiency
involves setting the temperature control absorbed by either sized test block that and require higher oven input rates to
for the normal baking cooking cycle they account for much of the additional compensate for the heat lost to the
such that the temperature inside the oven energy input for ovens with high cavity.

6 For ovens that can be operated with or without consumption for these two modes is used. For self- assumes an average of 4 self-cleaning operations per
forced convection, the average of the energy clean mode, the test procedure in Appendix I year.

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Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations 37959

TABLE III–1—GAS OVEN FEATURES IN DOE TEST SAMPLE
Hidden Normal-
Burner Cavity
Test unit Installation Unit width bake ele- Convection ized
Type input rate volume Ignition type
No. configuration (in.) ment (Y/N) IAEC †
(Btu/h) (ft3) (Y/N) (kBtu/yr)

1 .............. Standard .......... Freestanding ... 18,000 30 4.8 Spark ............... Y N 1234.2
2 .............. Standard .......... Freestanding ... 18,000 30 4.8 Glo-bar ............ Y N 1396.5
3 .............. Self-Clean ........ Freestanding ... 18,000 30 5.0 Glo-bar ............ Y Y 1269.0
4 .............. Standard .......... Freestanding ... 16,500 30 4.4 Glo-bar ............ Y N 1495.2
5 .............. Self-Clean ........ Built-in ............. 13,000 24 2.8 Glo-bar ............ Y N 1492.9
6 * ............ Standard .......... Freestanding ... 28,000 36 5.3 Glo-bar ............ Y Y 1864.5
7 * ............ Standard .......... Slide-in ............ 27,000 30 4.4 Glo-bar ............ Y Y 1916.5
8 * ............ Standard .......... Freestanding ... 30,000 36 5.4 Glo-bar ............ Y Y 2079.3
* Models are marketed as commercial style.
† Measured IAEC normalized to a fixed cavity volume of 4.3 ft3.

DOE also investigated the time it took As shown in Table III–2, gas ovens with lower burner input rates, and two out of
each oven in its sample to heat the test burner input rates greater than 22,500 the three units with the higher burner
block to the required final temperature Btu/h do not heat the test block input rates took longer than the average
of 234 °F above its initial temperature. significantly faster than the ovens with time to heat the test block.

TABLE III–2—GAS OVEN TEST TIMES
Bake time for
the test block
Burner input to reach 234 Difference in
Unit Product class rate °F above initial time from avg.
(Btu/h) temp (min)
(minutes
(min))

1 .................. Standard ............................................................................................................. 18,000 43.6 ¥3.8
2 .................. Standard ............................................................................................................. 18,000 43.6 ¥3.8
3 .................. Self-Clean .......................................................................................................... 18,000 47.2 ¥0.2
4 .................. Standard ............................................................................................................. 16,500 44.9 ¥2.5
5 .................. Self-Clean .......................................................................................................... 13,000 48.9 1.5
6 .................. Standard * ........................................................................................................... 28,000 48.9 1.5
7 .................. Standard * ........................................................................................................... 27,000 45.4 ¥2.0
8 .................. Standard * ........................................................................................................... 30,000 57.2 9.8

Average ............................................................................................................................ ........................ 47.4 ........................
* Test units 6, 7, and 8 are marketed as commercial-style ovens.

Considering the testing results and standards as a function of oven cavity racks, and other removable features
analysis described above, and because volume. shall be ignored in the overall volume
interested parties did not provide data In the December 2014 SNOPR, DOE calculation, and the volume of non-
or information to support the assertion proposed to amend section 3.1.1 of rectangular cavities is calculated by
that the performance of conventional Appendix I to incorporate by reference measuring the rectangular portion of the
ovens with input rates greater than the industry test standard AHAM–OV– cavity and non-rectangular cavity
22,500 Btu/h as compared to ovens with 1–2011, which includes a method for separately and adding their volumes
lower input rates cannot be accurately determining oven cavity volume. DOE together.
measured using the existing test proposed to incorporate section 3, AHAM–OV–1–2011 also includes a
procedure, DOE maintains in this final ‘‘Definition,’’ section 5.1, ‘‘General measurement of the oven’s usable space,
rule that the existing test block and Principles,’’ and section 5.2 ‘‘Overall which is the volume inside the oven
existing conventional oven test method Volume’’ of AHAM–OV–1–2011, as cavity available for the placement of
are appropriate to test conventional these sections provide a repeatable and food, but DOE did not propose to
ovens with input rates greater than reproducible method to measure cavity incorporate this measurement in
22,500 Btu/h. dimensions and calculate overall Appendix I. The usable space is oven-
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D. Incorporating by Reference AHAM– volume by including clear definitions of specific and determined by measuring
OV–1–2011 for Determination of the oven characteristics and tolerances for either the size of the cavity door
Volume of Conventional Ovens dimensional measurements. 79 FR aperture or the distance between
71916 (December 3, 2014). Section 5.1 barriers, racks, and rack supports inside
As discussed in section I of this final of AHAM–OV–1–2011 specifies that if the cavity or on the cavity walls. The
rule, DOE has initiated a rulemaking to depressions or cutouts exist in the lesser of these dimensions is used to
determine whether to amend the current cavity wall, dimensions are taken from calculate the volume of the usable
energy conservation standards for the plane representing the largest area of space.
conventional ovens. As part of that the surface. Section 5.1 of AHAM–OV– Although DOE did not receive any
rulemaking, DOE has proposed 1–2011 also specifies that oven lights, public comments on its proposal to

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37960 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

incorporate the overall cavity volume temperature controls. DOE proposed to consumption.8 In the October 2012
measurement described in section 5.1 test conventional ovens equipped with Final Rule, DOE addressed standby
and 5.2 of AHAM–OV–1–2011, one an oven separator in each possible oven mode and off mode energy
manufacturer commented during configuration (i.e., full oven cavity, consumption, as well as active mode
interviews conducted in February and upper cavity, and lower cavity) with the fan-only operation, for conventional
March of 2015 that DOE should instead cooking efficiency and total annual cooking products. 77 FR 65942 (Oct. 31,
consider incorporating the usable space energy consumption averaged. DOE 2012).
measurement described in section 5.3 of noted that while the current test DOE noted in the December 2014
AHAM–OV–1–2011. The manufacturer procedure in Appendix I includes SNOPR that because conventional gas
cited difficulty in determining the plane provisions for measuring the energy ovens with higher input rates are
representing the largest area of the consumption and cooking efficiency of covered under the definition of
cavity wall surface, and also stated that single ovens and multiple (separate) ‘‘cooking products’’ in 10 CFR 430.2,
the oven test procedure used by ovens,7 it does not include provisions these products are covered by the
National Resources Canada (NRCan) for how to test a single oven that can be standby and off mode test procedures
bases its energy efficiency regulations configured as a full oven or as two discussed above. During testing of
on the volume of usable oven space and separate smaller cavities. 79 FR 71916– conventional ovens with both standard
not overall cavity volume. 71917 (December 3, 2014). and higher input rates in its test sample,
DOE notes that during February and During the subsequent manufacturer DOE did not observe any standby mode
March 2105 manufacturer interviews interviews, several manufacturers or off mode operation or features unique
conducted to discuss the December commented that without an easy or to these products that would warrant
2014 SNOPR, the majority of convenient way to store the separator, any changes to the standby mode and
manufacturers confirmed that the cavity consumers would rarely use the feature. off mode test methods. 79 FR 71917
volume currently published in One manufacturer suggested that DOE (December 3, 2014). Because DOE
marketing materials and product consider applying a consumer usage received no comments objecting to these
literature typically represents overall factor to the oven separator when findings, this final rule does not amend
cavity volume. DOE does not believe calculating annual energy consumption the standby mode and off mode test
that requiring this measurement will instead of using an equally-weighted methods currently specified in
place additional burden on average. Appendix I section 3.1.
manufacturers. Manufacturers already DOE is not aware of any consumer G. Technical Corrections to the
provide exterior dimensions in the usage data indicating how often Calculation of Derived Results From
installation instructions and may also be consumers might use an oven separator Test Measurements
able to use the configuration and in each configuration. Additionally,
dimensions of indentions in the oven DOE notes that the annual energy DOE did not receive comments on its
cavity walls provided in engineering consumption of conventional ovens proposal to correct the units of
drawings to determine the plane having multiple, permanent cavities of measurement in section 4 of Appendix
representing the largest area of the different volumes are currently averaged I nor did DOE receive comments on its
cavity wall surface. Incorporating a with an equal weighting in the existing correction of the integrated energy factor
cavity measurement into Appendix I oven test procedure in Appendix I. for conventional electric cooking tops,
would, in most circumstances, add only Therefore, DOE has no basis to adopt a IRCT. In this final rule, DOE corrects the
the three additional measurements of weighted average of cooking efficiency following sections of Appendix I to
cavity height, width, and depth. and annual energy consumption as part reference the appropriate units:
Furthermore, DOE believes the overall of the test procedure for ovens equipped 4.1.2.1.1, 4.1.2.2.1, 4.1.2.4.3, 4.1.2.5.3,
cavity volume measurement provides a with an oven separator. In this final 4.1.4.1, 4.1.4.2, 4.2.1.2, 4.2.2.2.1, and
more accurate representation of the rule, DOE amends the oven test 4.2.2.2.2. DOE also corrects the value of
relationship between cavity volume and procedure in Appendix I to require the the annual useful cooking energy
cooking efficiency as measured by the test of conventional ovens equipped output, OCT, used to calculate IRCT, to
DOE test procedure in Appendix I. Any with an oven separator in each possible 173.1 kWh per year.
mass in the overall cavity volume oven configuration and to calculate H. Headings for Conventional Cooking
outside of the usable space is heated cooking efficiency and annual energy Top Calculations
during the bake cycle, contributes to the consumption as an equal average of the
thermal mass, and thus impacts the DOE did not receive comments on its
results measured in each configuration. proposal in the December 2014 SNOPR
cooking efficiency of the oven.
For the reasons discussed above, DOE F. Standby and Off Mode Test to restore headings to section 4.2
amends in this final rule section 3.1.1 of Procedure ‘‘Conventional cooking top,’’ and
Appendix I to incorporate by reference EPCA requires that DOE amend its section 4.2.1, ‘‘Surface unit cooking
Sections 3, 5.1, and 5.2 of AHAM–OV– test procedures for all covered consumer efficiency’’ in Appendix I to
1–2011 for measuring the overall oven products, including conventional ovens, appropriately describe these sections.
cavity volume. to include measures of standby mode Therefore DOE has included these
and off mode energy consumption, if modifications in this final rule.
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E. Conventional Oven Separator
technically feasible. (42 U.S.C. I. Clarifying Definitions for Freestanding
In the December 2014 SNOPR, DOE 6295(gg)(2)(A)) Accordingly, DOE and Built-In Ovens
observed one conventional electric oven conducted a rulemaking for
equipped with an oven separator on the Appendix I contains definitions for
conventional cooking products, various cooking product installation
U.S. market that allows for cooking dishwashers, and dehumidifiers to
using the entire oven cavity in the address standby and off mode energy 8 DOE pursued amendments to Appendix I
absence of the separator or, if the
addressing standby and off mode energy for
separator is installed, splitting the oven 7 For multiple ovens, Appendix I specifies that microwave ovens as part of a separate rulemaking.
into two smaller cavities that may be the energy consumption and cooking efficiency be The final rule for this microwave oven rulemaking
operated individually with independent calculated as the average of each individual oven. published on January 18, 2013. 78 FR 4015.

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Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations 37961

conditions and specifies that the unit ovens, although it specifies the ovens equipped with an oven separator
under test must be installed in an measurement energy consumption are tested in each possible oven
enclosure in accordance with the during self-cleaning operation in section configuration. DOE notes, based on its
manufacturer’s instructions. The test 3 Test Methods and Measurements. The testing, that this may add two oven tests
procedure in Appendix I currently existing test procedure specifies setting for the additional cavity configurations,
defines ‘‘freestanding’’ as an installation the conventional oven’s self-cleaning and add approximately $2,750 for labor.
configuration where the product is not process in accordance with the DOE does not believe this additional
supported by surrounding cabinetry, manufacturer’s instructions, and if the cost represents an excessive burden for
walls, or other similar structures. A self-cleaning process is adjustable, using test laboratories or manufacturers given
‘‘built-in’’ installation condition means the average time recommended by the the significant investments necessary to
the product is supported by surrounding manufacturer for a moderately soiled manufacture, test and market consumer
cabinetry, walls, or other similar oven. DOE is clarifying in the final rule appliances.
structures. ‘‘Drop-in’’ means the product that self-cleaning operation is an active
is supported by horizontal surface mode not intended to heat or cook food IV. Procedural Issues and Regulatory
cabinetry. During interviews after that is user-selectable, separate from the Review
publication of the December 2014 normal baking mode, and dedicated to A. Review Under Executive Order 12866
SNOPR, manufacturers commented that cleaning and removing cooking deposits
the current definitions for from the oven cavity walls. The Office of Management and Budget
‘‘freestanding,’’ ‘‘built-in,’’ and ‘‘drop- (OMB) has determined that test
K. Compliance With Other EPCA procedure rulemakings do not constitute
in’’ should be amended. Specifically,
Requirements ‘‘significant regulatory actions’’ under
manufacturers noted that some
conventional ovens and conventional EPCA requires that any new or section 3(f) of Executive Order 12866,
ranges are designed to be used in both amended test procedures for consumer Regulatory Planning and Review, 58 FR
a freestanding or built-in configuration, products must be reasonably designed 51735 (Oct. 4, 1993). Accordingly, this
and that it is currently unclear in which to produce test results which measure action was not subject to review under
configuration the oven should be tested. energy efficiency, energy use, or the Executive Order by the Office of
During its testing, DOE observed that estimated annual operating cost of a Information and Regulatory Affairs
built-in ovens consume energy in fan- covered product during a representative (OIRA) in the Office of Management and
only mode, whereas freestanding ovens average use cycle or period of use, and Budget (OMB).
do not. The additional energy required must not be unduly burdensome to
to exhaust air from the oven cavity is conduct. (42 U.S.C. 6293(b)(3)) B. Review Under the Regulatory
necessary to meet safety-related As part of the December 2014 SNOPR, Flexibility Act
temperature requirements for built-in DOE tentatively concluded that the
The Regulatory Flexibility Act (5
installation configurations, in which the amended test procedures would
U.S.C. 601 et seq.) requires preparation
oven is enclosed in cabinetry. Because produce test results that measure the
of an initial regulatory flexibility
built-in ovens consume additional energy consumption of conventional
analysis (IFRA) for any rule that by law
energy in fan-only mode, as part of ovens during representative use, and
must be proposed for public comment
DOE’s ongoing energy conservation that the test procedures would not be
and a final regulatory flexibility analysis
standards rulemaking for conventional unduly burdensome to conduct. 79 FR
for any such rule that an agency adopts
ovens, DOE has proposed to establish 71917–71918 (Dec. 3, 2014).
As discussed in section III.C of this as a final rule, unless the agency
separate product classes for built-in and certifies that the rule, if promulgated,
freestanding ovens using the definitions document, the final rule amends the test
procedure for gas ovens to require that will not have a significant economic
provided in Appendix I. 80 FR 33030, impact on a substantial number of small
33045–46 (June 10, 2015). DOE also the existing test block be used for all
ovens, including ovens with high input entities. As required by Executive Order
recognizes that the current definition of 13272, ‘‘Proper Consideration of Small
built-in configurations does not rates. DOE does not expect any increase
in testing burden compared to the Entities in Agency Rulemaking,’’ 67 FR
adequately describe the installation 53461 (August 16, 2002), DOE
conditions that require built-in ovens to existing test procedure, since these tests
follow the same methodology, use the published procedures and policies on
have a separate fan assembly and fan- February 19, 2003 to ensure that the
only mode. same test equipment, and can be
conducted in the same facilities used for potential impacts of its rules on small
In this final rule, DOE is clarifying
the current energy testing of entities are properly considered during
that conventional ovens or ranges that
conventional ovens. As discussed in the DOE rulemaking process. 68 FR
may be used in either a freestanding or
section III.D of this document, the final 7990. DOE has made its procedures and
built-in configuration are to be tested in
rule also incorporates by reference policies available on the Office of the
the built-in configuration to account for
AHAM–OV–1–2011 for measuring the General Counsel’s Web site: http://
any additional energy-consumption
overall oven cavity volume. DOE energy.gov/gc/office-general-counsel.
related to fan-only mode in this
configuration. DOE is also clarifying estimates that it would take on the order DOE reviewed this final rule under
that the definition of built-in means the of one-half to one hour to conduct the the provisions of the Regulatory
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product is enclosed in surrounding cavity volume measurement for a single Flexibility Act and the procedures and
cabinetry, walls, or other similar oven, and $50 to $100 per test for labor. policies published on February 19,
structures on at least three sides. Additionally, because manufacturers 2003. The final rule clarifies that the
may already be using the AHAM existing test method for ovens is
J. Clarifying Definitions for Oven Self- procedure to measure oven cavity applicable to gas ovens with higher
Cleaning Operation volume, DOE does not anticipate this input rates. The final rule also includes
The existing test procedure in measurement to be unduly burdensome a test method for conventional ovens
Appendix I does not include a to conduct. As discussed in section III.E with oven separators and incorporates
definition for the self-cleaning operation of this document, the final rule amends by reference a test method to measure
or self-cleaning process of conventional the test procedure so that conventional oven cavity volume.

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37962 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

The Small Business Administration volume of all of its product offerings for this equipment. DOE recognizes that
(SBA) considers a business entity to be which is only 0.03 percent of the recordkeeping burden may vary
a small business, if, together with its average annual revenue of the seven substantially based on company
affiliates, it employs less than a identified small businesses. This preferences and practices.
threshold number of workers or earns estimate assumes $100 per test as Notwithstanding any other provision
less than the average annual receipts described in section III.K of this notice, of the law, no person is required to
specified in 13 CFR part 121. The with up to 44 tests per manufacturer. respond to, nor shall any person be
threshold values set forth in these Additionally, no small conventional subject to a penalty for failure to comply
regulations use size standards and codes oven manufacturer, as defined by the with, a collection of information subject
established by the North American SBA, offers a product with an oven to the requirements of the PRA, unless
Industry Classification System (NAICS) separator. that collection of information displays a
that are available at: http:// For these reasons, DOE concludes and currently valid OMB Control Number.
www.sba.gov/sites/default/files/files/ certifies that this final rule would not
D. Review Under the National
Size_Standards_Table.pdf. The have a significant economic impact on
Environmental Policy Act of 1969
threshold number for NAICS a substantial number of small entities.
classification code 335221, titled Accordingly, DOE has not prepared a In this final rule, DOE amends its test
‘‘Household Cooking Appliance regulatory flexibility analysis for this procedure for conventional ovens. DOE
Manufacturing,’’ is 750 employees; this rulemaking. DOE has transmitted the has determined that this rule falls into
classification includes manufacturers of certification and supporting statement a class of actions that are categorically
residential conventional ovens. of factual basis to the Chief Counsel for excluded from review under the
Most of the manufacturers supplying Advocacy of the SBA for review under National Environmental Policy Act of
conventional ovens are large 5 U.S.C. 605(b). 1969 (42 U.S.C. 4321 et seq.) and DOE’s
multinational corporations. DOE implementing regulations at 10 CFR part
C. Review Under the Paperwork 1021. Specifically, this rule amends an
surveyed the AHAM member directory
Reduction Act of 1995 existing rule without affecting the
to identify manufacturers of
conventional ovens and conventional Manufacturers of conventional ovens amount, quality or distribution of
ranges. DOE then consulted publicly- must certify to DOE that their products energy usage, and, therefore, will not
available data, purchased company comply with any applicable energy result in any environmental impacts.
reports from vendors such as Dun and conservation standards. In certifying Thus, this rulemaking is covered by
Bradstreet, and contacted compliance, manufacturers must test Categorical Exclusion A5 under 10 CFR
manufacturers, where needed, to their products according to the DOE test part 1021, subpart D, which applies to
determine if they meet the SBA’s procedures for conventional ovens, any rulemaking that interprets or
definition of a ‘‘small business including any amendments adopted for amends an existing rule without
manufacturing facility’’ and have their those test procedures. DOE has changing the environmental effect of
manufacturing facilities located within established regulations for the that rule. Accordingly, neither an
the United States. Based on this certification and recordkeeping environmental assessment nor an
analysis, DOE estimates that there are requirements for all covered consumer environmental impact statement is
seven small businesses that manufacture products and commercial equipment, required.
conventional ovens and conventional including conventional ovens. 76 FR
E. Review Under Executive Order 13132
ranges subject to the proposed test 12422 (March 7, 2011). The collection-
procedure amendments. of-information requirement for the Executive Order 13132, ‘‘Federalism,’’
For the reasons stated in the certification and recordkeeping is 64 FR 43255 (August 4, 1999), imposes
preamble, DOE has concluded that the subject to review and approval by OMB certain requirements on agencies
final rule would not have a significant under the Paperwork Reduction Act formulating and implementing policies
impact on small manufacturers under (PRA). This requirement has been or regulations that preempt State law or
the applicable provisions of the approved by OMB under OMB control that have Federalism implications. The
Regulatory Flexibility Act. The final number 1910–1400. In an application to Executive Order requires agencies to
rule clarifies that DOE’s existing test renew the OMB information collection examine the constitutional and statutory
procedures in Appendix I for approval for DOE’s certification and authority supporting any action that
conventional ovens are applicable to recordkeeping requirements, DOE would limit the policymaking discretion
conventional ovens with higher input included an estimated burden for of the States and to carefully assess the
rates. These tests follow the same manufacturers of conventional ovens. necessity for such actions. The
methodology, use the same test OMB has approved the revised Executive Order also requires agencies
equipment, and can be conducted in the information collection for DOE’s to have an accountable process to
same facilities used for the current certification and recordkeeping ensure meaningful and timely input by
energy testing of conventional ovens, so requirements through November 30, State and local officials in the
there would be no additional facility 2017. 80 FR 5099 (January 30, 2015). development of regulatory policies that
costs required by the final rule. DOE estimated that it will take each have Federalism implications. On
Additionally, the incorporation by respondent approximately 30 hours March 14, 2000, DOE published a
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reference of AHAM–OV–1–2011 to total per company per year to comply statement of policy describing the
measure oven cavity volume and the with the certification and recordkeeping intergovernmental consultation process
addition of a test method to measure requirements based on 20 hours of it will follow in the development of
conventional ovens with an oven technician/technical work and 10 hours such regulations. 65 FR 13735. DOE
separator will not significantly impact clerical work to submit the Compliance examined this final rule and determined
small manufacturers under the and Certification Management System that it will not have a substantial direct
applicable provisions of the Regulatory templates. This rulemaking would effect on the States, on the relationship
Flexibility Act. DOE estimates a cost of include recordkeeping requirements on between the national government and
$4,500 for an average small manufacturers that are associated with the States, or on the distribution of
manufacturer to measure the cavity executing and maintaining the test data power and responsibilities among the

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Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations 37963

various levels of government. EPCA to publish a written statement that 62446 (Oct. 7, 2002). DOE has reviewed
governs and prescribes Federal estimates the resulting costs, benefits, this final rule under the OMB and DOE
preemption of State regulations as to and other effects on the national guidelines and has concluded that it is
energy conservation for the products economy. (2 U.S.C. 1532(a), (b)) The consistent with applicable policies in
that are the subject of this final rule. UMRA also requires a Federal agency to those guidelines.
States can petition DOE for exemption develop an effective process to permit
from such preemption to the extent, and timely input by elected officers of State, K. Review Under Executive Order 13211
based on criteria, set forth in EPCA. (42 local, and Tribal governments on a Executive Order 13211, ‘‘Actions
U.S.C. 6297(d)) No further action is proposed ‘‘significant intergovernmental Concerning Regulations That
required by Executive Order 13132. mandate,’’ and requires an agency plan Significantly Affect Energy Supply,
for giving notice and opportunity for Distribution, or Use,’’ 66 FR 28355 (May
F. Review Under Executive Order 12988
timely input to potentially affected 22, 2001), requires Federal agencies to
Regarding the review of existing small governments before establishing prepare and submit to OMB, a
regulations and the promulgation of any requirements that might Statement of Energy Effects for any
new regulations, section 3(a) of significantly or uniquely affect small significant energy action. A ‘‘significant
Executive Order 12988, ‘‘Civil Justice governments. On March 18, 1997, DOE energy action’’ is defined as any action
Reform,’’ 61 FR 4729 (Feb. 7, 1996), published a statement of policy on its by an agency that promulgated or is
imposes on Federal agencies the general process for intergovernmental expected to lead to promulgation of a
duty to adhere to the following consultation under UMRA. 62 FR final rule, and that: (1) Is a significant
requirements: (1) Eliminate drafting 12820; also available at http:// regulatory action under Executive Order
errors and ambiguity; (2) write energy.gov/gc/office-general-counsel. 12866, or any successor order; and (2)
regulations to minimize litigation; (3) DOE examined this final rule according is likely to have a significant adverse
provide a clear legal standard for to UMRA and its statement of policy effect on the supply, distribution, or use
affected conduct rather than a general and determined that the rule contains of energy; or (3) is designated by the
standard; and (4) promote simplification neither an intergovernmental mandate, Administrator of OIRA as a significant
and burden reduction. Section 3(b) of nor a mandate that may result in the energy action. For any significant energy
Executive Order 12988 specifically expenditure of $100 million or more in action, the agency must give a detailed
requires that Executive agencies make any year, so these requirements do not statement of any adverse effects on
every reasonable effort to ensure that the apply. energy supply, distribution, or use if the
regulation: (1) Clearly specifies the
H. Review Under the Treasury and regulation is implemented, and of
preemptive effect, if any; (2) clearly
General Government Appropriations reasonable alternatives to the action and
specifies any effect on existing Federal
Act, 1999 their expected benefits on energy
law or regulation; (3) provides a clear
supply, distribution, and use.
legal standard for affected conduct Section 654 of the Treasury and
while promoting simplification and General Government Appropriations This regulatory action is not a
burden reduction; (4) specifies the Act, 1999 (Pub. L. 105–277) requires significant regulatory action under
retroactive effect, if any; (5) adequately Federal agencies to issue a Family Executive Order 12866. Moreover, it
defines key terms; and (6) addresses Policymaking Assessment for any rule would not have a significant adverse
other important issues affecting clarity that may affect family well-being. This effect on the supply, distribution, or use
and general draftsmanship under any final rule will not have any impact on of energy, nor has it been designated as
guidelines issued by the Attorney the autonomy or integrity of the family a significant energy action by the
General. Section 3(c) of Executive Order as an institution. Accordingly, DOE has Administrator of OIRA. Therefore, it is
12988 requires Executive agencies to concluded that it is not necessary to not a significant energy action, and,
review regulations in light of applicable prepare a Family Policymaking accordingly, DOE has not prepared a
standards in sections 3(a) and 3(b) to Assessment. Statement of Energy Effects.
determine whether they are met or it is L. Review Under Section 32 of the
unreasonable to meet one or more of I. Review Under Executive Order 12630
Federal Energy Administration Act of
them. DOE has completed the required DOE has determined, under Executive 1974
review and determined that, to the Order 12630, ‘‘Governmental Actions
extent permitted by law, this final rule and Interference with Constitutionally Under section 301 of the Department
meets the relevant standards of Protected Property Rights’’ 53 FR 8859 of Energy Organization Act (Pub. L. 95–
Executive Order 12988. (March 18, 1988), that this regulation 91; 42 U.S.C. 7101), DOE must comply
will not result in any takings that might with section 32 of the Federal Energy
G. Review Under the Unfunded Administration Act of 1974, as amended
require compensation under the Fifth
Mandates Reform Act of 1995 by the Federal Energy Administration
Amendment to the U.S. Constitution.
Title II of the Unfunded Mandates Authorization Act of 1977. (15 U.S.C.
Reform Act of 1995 (UMRA) requires J. Review Under Treasury and General 788; FEAA) Section 32 essentially
each Federal agency to assess the effects Government Appropriations Act, 2001 provides in relevant part that, where a
of Federal regulatory actions on State, Section 515 of the Treasury and proposed rule authorizes or requires use
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local, and Tribal governments and the General Government Appropriations of commercial standards, the notice of
private sector. Public Law 104–4, sec. Act, 2001 (44 U.S.C. 3516 note) provides proposed rulemaking must inform the
201 (codified at 2 U.S.C. 1531). For a for agencies to review most public of the use and background of
regulatory action resulting in a rule that disseminations of information to the such standards. In addition, section
may cause the expenditure by State, public under guidelines established by 32(c) requires DOE to consult with the
local, and Tribal governments, in the each agency pursuant to general Attorney General and the Chairman of
aggregate, or by the private sector of guidelines issued by OMB. OMB’s the Federal Trade Commission (FTC)
$100 million or more in any one year guidelines were published at 67 FR concerning the impact of the
(adjusted annually for inflation), section 8452 (Feb. 22, 2002), and DOE’s commercial or industry standards on
202 of UMRA requires a Federal agency guidelines were published at 67 FR competition.

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37964 Federal Register / Vol. 80, No. 127 / Thursday, July 2, 2015 / Rules and Regulations

The proposed modifications to the § 430.3 Materials incorporated by of Home Appliance Manufacturers
test procedures addressed by this action reference. titled, ‘‘Procedures for the
incorporate testing methods contained * * * * * Determination and Expression of the
in the AHAM OV–1–2011 standard, (h) * * * Volume of Household Microwave and
‘‘Procedures for the Determination and (7) AHAM OV–1–2011, (‘‘AHAM OV– Conventional Ovens,’’ AHAM OV–1–
Expression of the Volume of Household 1’’), Procedures for the Determination 2011 (incorporated by reference; see
Microwave and Conventional Ovens.’’ and Expression of the Volume of § 430.3).
DOE has evaluated this standard and is Household Microwave and 1.3 Built-in means the product is
unable to conclude whether this Conventional Ovens, (2011), IBR enclosed in surrounding cabinetry,
industry standard fully complies with approved for appendix I to subpart B. walls, or other similar structures on at
the requirements of section 32(b) of the * * * * * least three sides.
FEAA, (i.e., that it was developed in a * * * * *
Appendix I to Subpart B—[Amended]
manner that fully provides for public
participation, comment, and review). ■ 3. Appendix I to subpart B of part 430 2. Test Conditions
DOE has consulted with both the is amended: 2.1 Installation A freestanding
Attorney General and the Chairman of ■ a. By revising the Note; conventional range or oven shall be
the FTC about the impact on ■ b. In section 1. Definitions, by: installed with the back directly against,
competition of using the methods ■ i. Redesignating sections 1.2 through or as near as possible to, a vertical wall
contained in these standards and has 1.19 as sections 1.3 through 1.20, which extends at least 1 foot above and
received no comments objecting to their respectively; and on either side of the appliance. There
use. ■ ii. Adding new section 1.2; shall be no side walls. A drop-in, built-
■ iii. Revising newly redesignated
in, or wall-mounted appliance shall be
M. Congressional Notification section 1.3; installed in an enclosure in accordance
■ c. In section 2. Test Conditions, by
As required by 5 U.S.C. 801, DOE will with the manufacturer’s instructions. If
revising sections 2.1 and 2.6;
report to Congress on the promulgation ■ d. By revising section 3. Test Methods
the manufacturer’s instructions specify
of this rule before its effective date. The and Measurements; that the appliance may be used in
report will state that it has been ■ e. In section 4. Calculation of Derived multiple installation conditions, the
determined that the rule is not a ‘‘major Results From Test Measurements, by: appliance shall be installed according to
rule’’ as defined by 5 U.S.C. 804(2). ■ i. Revising sections 4.1.2.1.1, 4.1.2.2.1, the built-in configuration. Regardless of
4.1.2.4.3, 4.1.2.5, 4.1.2.5.1, 4.1.2.5.2, the installation condition, conventional
N. Approval of the Office of the cooking products are to be completely
Secretary 4.1.2.5.3. 4.1.3.2, 4.1.4.1, 4.1.4.2, 4.2.1.2,
4.2.2.2.1, 4.2.2.2.2, and 4.2.3.2; and assembled with all handles, knobs,
The Secretary of Energy has approved ■ ii. Adding sections 4.2 and 4.2.1. guards, etc. mounted in place. Any
publication of this final rule. The revisions and additions read as electric resistance heaters, gas burners,
follows: baking racks, and baffles shall be in
List of Subjects in 10 CFR Part 430 place in accordance with the
Appendix I to Subpart B of Part 430— manufacturer’s instructions; however,
Administrative practice and Uniform Test Method for Measuring the broiler pans are to be removed from the
procedure, Confidential business Energy Consumption of Conventional oven’s baking compartment.
information, Energy conservation, Ranges, Conventional Cooking Tops,
Household appliances, Imports, Conventional Ovens, and Microwave * * * * *
Incorporation by reference, Ovens 2.6 Normal nonoperating
Intergovernmental relations, Small temperature. All areas of the appliance
businesses. Note: Any representation related to active to be tested shall attain the normal
mode energy consumption of conventional nonoperating temperature, as defined in
Issued in Washington, DC, on June 18, ranges, conventional cooking tops, and section 1.13 of this appendix, before any
2015. conventional ovens made after December 29, testing begins. The equipment for
Kathleen B. Hogan, 2015 must be based upon results generated measuring the applicable normal
Deputy Assistant Secretary for Energy under this test procedure. Any representation nonoperating temperature shall be as
Efficiency, Energy Efficiency and Renewable related to standby mode and off mode energy
consumption of conventional ranges, described in sections 2.9.3.1, 2.9.3.2,
Energy.
conventional cooking tops, conventional 2.9.3.3, and 2.9.3.4 of this appendix, as
For the reasons stated in the ovens, and microwave ovens must be based applicable.
preamble, DOE amends part 430 of upon results generated under this test * * * * *
procedure.
Chapter II of Title 10, Code of Federal 3. Test Methods and Measurements
Regulations as set forth below: Upon the compliance date(s) of any
energy conservation standard(s) for 3.1 Test methods.
PART 430—ENERGY CONSERVATION conventional ranges, conventional 3.1.1 Conventional oven. Perform a
PROGRAM FOR CONSUMER cooking tops, conventional ovens, and test by establishing the testing
PRODUCTS microwave ovens, use of the applicable conditions set forth in section 2, Test
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provisions of this test procedure to Conditions, of this appendix and turn
■ 1. The authority citation for part 430 demonstrate compliance with the off the gas flow to the conventional
continues to read as follows: energy conservation standard(s) will cooking top, if so equipped. Before
Authority: 42 U.S.C. 6291–6309; 28 U.S.C. also be required. beginning the test, the conventional
2461 note. oven shall be at its normal non-
1. Definitions operating temperature as defined in
■ 2. Section 430.3 is amended by * * * * * section 1.13 and described in section 2.6
redesignating paragraph (h)(7) as (h)(8) 1.2 AHAM–OV–1 means the test of this appendix. Set the conventional
and adding new paragraph (h)(7) to read standard published by the Association oven test block W1 approximately in the
as follows: center of the usable baking space. If

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Document Created: 2015-12-15 13:15:26
Document Modified: 2015-12-15 13:15:26

Category		Regulatory Information
Collection		Federal Register
sudoc Class		AE 2.7: GS 4.107: AE 2.106:
Publisher		Office of the Federal Register, National Archives and Records Administration
Section		Rules and Regulations
Action		Final rule.
Dates		The effective date of this rule is August 3, 2015. The final rule changes will be mandatory for product testing starting December 29, 2015. The incorporation by reference of certain publications listed in this rule was approved by the Director of the Federal Register as of August 3, 2015.
Contact		Ms. Ashley Armstrong, U.S. Department of Energy, Office of Energy Efficiency and Renewable Energy, Building Technologies Office, EE-2J, 1000 Independence Avenue SW., Washington, DC, 20585-0121. Telephone: (202) 586-6590. Email: [email protected]
FR Citation		80 FR 37954
RIN Number		1904-AC71
CFR Associated		Administrative Practice and Procedure; Confidential Business Information; Energy Conservation; Household Appliances; Imports; Incorporation by Reference; Intergovernmental Relations and Small Businesses