Energy Conservation Program: Test Procedure for Commercial Refrigeration Equipment, 10292-10321 [2012-3201]
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
DEPARTMENT OF ENERGY
10 CFR Part 431
[Docket No. EERE–2010–BT–TP–0034]
RIN 1904–AC40
Energy Conservation Program: Test
Procedure for Commercial
Refrigeration Equipment
Office of Energy Efficiency and
Renewable Energy, U.S. Department of
Energy.
ACTION: Final rule.
AGENCY:
In this final rule, the U.S.
Department of Energy (DOE) is
amending its test procedure for
commercial refrigeration equipment
(CRE), incorporating changes that will
take effect 30 days after the final rule is
published in the Federal Register.
These changes will be mandatory for
equipment testing to demonstrate
compliance with the amended energy
standards (Docket No. EERE–2010–BT–
STD–0003). The amendments to the test
procedure adopted in this final rule
include updating references to industry
test procedures to their current versions,
incorporating methods to evaluate the
energy impacts resulting from the use of
night curtains and lighting occupancy
sensors and controls, and allowing
testing of certain commercial
refrigeration equipment at the lowest
temperature at which it is able to
operate, referred to as its lowest
application product temperature. In
response to comments received in
response to the relevant November 2010
Notice of Proposed Rulemaking (NOPR),
and to minimize the testing burden on
manufacturers, DOE is also
incorporating provisions to allow
manufacturers to test at the rating
temperatures and ambient conditions
required by NSF International (founded
in 1944 as the National Sanitation
Foundation, now referred to simply as
NSF) for food safety testing.
DATES: The effective date of this rule is
March 22, 2012. The final rule changes
will be mandatory for equipment testing
starting on the compliance date of any
amended energy conservation standards
promulgated as a result of the on-going
energy conservation standard
rulemaking for commercial refrigeration
equipment (Docket No. EERE–2010–BT–
STD–0003). Representations either in
writing or in any broadcast
advertisement with respect to energy
consumption of commercial
refrigeration equipment must also be
made using the revised DOE test
procedure beginning on that compliance
date.
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SUMMARY:
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The incorporation by reference of
certain publications listed in this final
rule is approved by the Director of the
Office of the Federal Register as of
March 22, 2012.
ADDRESSES: The docket is available for
review at regulations.gov, including
Federal Register notices, framework
documents, public meeting attendee
lists and transcripts, comments, and
other supporting documents/materials.
All documents in the docket are listed
in the regulations.gov index. However,
not all documents listed in the index
may be publicly available, such as
information that is exempt from public
disclosure.
A link to the docket Web page can be
found at: www1.eere.energy.gov/
buildings/appliance_standards/
commercial/refrigeration_
equipment.html. 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: Mr.
Charles Llenza, U.S. Department of
Energy, Office of Energy Efficiency and
Renewable Energy, Building
Technologies Program, EE–2J, 1000
Independence Avenue SW.,
Washington, DC 20585–0121.
Telephone: (202) 586–2192. Email:
Charles.Llenza@ee.doe.gov.
Ms. Jennifer Tiedeman, U.S.
Department of Energy, Office of the
General Counsel, GC–71, 1000
Independence Avenue SW.,
Washington, DC 20585–0121.
Telephone: (202) 287–6111.
Email:Jennifer.Tiedeman@hq.doe.gov.
SUPPLEMENTARY INFORMATION: This final
rule incorporates by reference into Part
431 the following industry standards:
(1) Air-Conditioning, Heating, and
Refrigeration Institute (AHRI) Standard
1200 (I–P)–2010, ‘‘2010 Standard for
Performance Rating of Commercial
Refrigerated Display Merchandisers and
Storage Cabinets,’’ and
(2) Association of Home Appliance
Manufacturers (AHAM) Standard HRF–
1–2008, ‘‘Energy and Internal Volume of
Refrigerating Appliances (2008),’’
including Errata to Energy and Internal
Volume of Refrigerating Appliances,
Correction Sheet issued November 17,
2009.
Copies of AHRI standards may be
purchased from the Air-Conditioning,
Heating, and Refrigeration Institute,
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2111 Wilson Blvd., Suite 500, Arlington,
VA 22201, 703–524–8800, or at
www.ahrinet.org.
Copies of AHAM standards may be
purchased from the Association of
Home Appliance Manufacturers, 1111
19th Street, NW., Suite 402,
Washington, DC 20036, 202–872–5955,
or at www.aham.org.
Table of Contents
I. Authority and Background
A. Authority
B. Background
C. Test Procedure Rulemaking
Requirements and Impact on Energy
Conservation Standards
II. Summary of the Final Rule
III. Discussion
A. Amendments to the Test Procedure
1. Updated References to Industry Test
Procedures to Their Most Current
Versions
2. Inclusion of a Method for Determining
Reduced Energy Consumption Due to the
Use of Night Curtains on Open Cases
a. Representative Use
b. Applicable Equipment
c. Cost Effectiveness
3. Inclusion of a Calculation for
Determining Reduced Energy
Consumption Due to Use of Lighting
Occupancy Sensors or Controls
a. Definition of Lighting Control and
Lighting Occupancy Sensor
b. Manual Controls
c. Remote Lighting Controls
d. Representative Energy Savings
e. Optional Physical Test
4. Inclusion of a Provision for Testing at
Lowest Application Product
Temperature
a. Definition of Lowest Application
Product Temperature
b. Extension of Lowest Application
Product Temperature Rating to All
Equipment Classes and Rating
Temperatures
c. Energy Conservation Standard for
Equipment Tested at the Lowest
Application Product Temperature
d. Remote Condensing Units and the
Lowest Application Product
Temperature
5. Provisions Allowing Testing of
Equipment at NSF Test Temperatures
B. Other Notice of Proposed Rulemaking
Comments and DOE Responses
1. Equipment Scope
a. Remote Condensing Racks
b. Testing of Part-Load Technologies at
Variable Refrigeration Load
2. Effective Date
3. Preemption
4. Burden of Testing
a. Determination of Basic Models in the
Context of Night Curtain and Lighting
Occupancy Sensor and Scheduled
Control Test Provisions
b. Estimates of Burden
c. Coordination With ENERGY STAR
5. Association With Compliance,
Certification, and Enforcement
Regulations
a. Test Tolerances
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6. Alternative Refrigerants
7. Secondary Coolant Systems
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
V. Approval of the Office of the Secretary
I. Authority and Background
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A. Authority
Title III, Part C of the Energy Policy
and Conservation Act of 1975 (EPCA),
Public Law 94–163 (42 U.S.C. 6311–
6317, as codified), added by Public Law
95–619, title IV, section 441(a),
established the Energy Conservation
Program for Certain Industrial
Equipment, a program covering certain
industrial equipment, which includes
commercial refrigerators, freezers, and
refrigerator-freezers, the subject of this
final rule.1
Under EPCA, this program consists
essentially of four parts: (1) Testing; (2)
labeling; (3) Federal energy conservation
standards 2; and (4) certification and
enforcement procedures. The testing
requirements consist of test procedures
that manufacturers of covered
equipment must use (1) as the basis for
certifying to DOE that their equipment
complies with the applicable energy
conservation standards adopted under
EPCA; and (2) for making
representations about the efficiency of
those pieces of equipment. Similarly,
DOE must use these test requirements to
1 For editorial reasons, upon codification in the
U.S. Code, Part C was re-designated Part A–1.
2 EPCA prescribes energy conservation standards
for self-contained commercial refrigerators, freezers,
and refrigerator-freezers with solid or transparent
doors designed for holding temperature
applications, as well as self-contained refrigerators
with transparent doors designed for pull-down
applications. (42 U.S.C. 6313(c)(2)–(3)) EPCA also
requires DOE to develop standards for ice-cream
freezers; self-contained commercial refrigerators,
freezers, and refrigerator-freezers without doors;
and remote condensing commercial refrigerators,
freezers, and refrigerator-freezers. (42 U.S.C.
6313(c)(4)(A)) DOE conducted a rulemaking to
establish standards for these equipment classes
(2009 energy conservation standards rulemaking)
and published a final rule on January 9, 2009 (the
January 2009 final rule). 74 FR 1092.
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determine whether the equipment
complies with relevant standards
promulgated under EPCA. (42 U.S.C.
6315(b), 6295(s), and 6316(a)) The
current test procedure for commercial
refrigeration equipment appears under
Title 10 of the Code of Federal
Regulations (CFR) part 431, subpart C.
EPCA requires DOE to conduct an
evaluation of each class of covered
equipment at least once every 7 years to
determine whether to, among other
things, amend the test procedure for
such equipment. (42 U.S.C.
6314(a)(1)(A)) This rulemaking fulfills
DOE’s obligation under EPCA to
evaluate the test procedure for
commercial refrigeration equipment
every 7 years.
In addition, EPCA contains specific
provisions relating to the test procedure
for commercial refrigeration equipment.
The test procedure for commercial
refrigerators, freezers, and refrigeratorfreezers must be: (1) The test procedure
determined to be generally accepted
industry testing procedures; or (2) rating
procedures developed or recognized by
the American Society of Heating,
Refrigerating and Air-Conditioning
Engineers (ASHRAE) or by the
American National Standards Institute
(ANSI). (42 U.S.C. 6314(a)(6)(A)(i))
EPCA also establishes the initial test
procedure for self-contained
refrigerators, freezers, and refrigeratorfreezers with doors. EPCA established
the ASHRAE Standard 117 test
procedure, ‘‘Method of Testing Closed
Refrigerators,’’ (ASHRAE 117–2002) as
the initial test procedure for commercial
refrigeration equipment, which became
effective on January 1, 2005. (42 U.S.C.
6314(a)(6)(A)(ii))
EPCA also establishes that if ASHRAE
117 is amended, the Secretary of Energy
(Secretary) must, by rule, amend the
DOE test procedure to ensure
consistency with the amended ASHRAE
117 standard, unless a case can be
made, through certain findings based on
clear and convincing evidence, that the
amended ASHRAE 117 does not meet
the requirements for a test procedure set
forth in EPCA. (42 U.S.C. 6314(a)(6)(E)
and 6314(2)–(3)) In addition, EPCA
states that if a test procedure other than
ASHRAE 117 is approved by ANSI, the
Secretary must review the relative
strengths and weaknesses of such a new
test procedure relative to the ASHRAE
117 test procedure and, based on that
review, determine whether to adopt the
alternate test procedure as the DOE test
procedure. (42 U.S.C. 6314(a)(6)(F))
B. Background
ASHRAE amended ASHRAE 117–
2002 and adopted ASHRAE Standard
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72–2005, ‘‘Method of Testing
Commercial Refrigerators and Freezers,’’
in its place, which was approved by
ANSI on July 29, 2005. During the 2006
en masse test procedure rulemaking,
which adopted the test procedures
specifically established in EPACT 2005,
DOE reviewed ASHRAE Standard 72–
2005, as well as ARI Standard 1200–
2006. 71 FR 71357 (Dec. 8, 2006). DOE
determined that ARI Standard 1200–
2006 references the test procedure in
ASHRAE Standard 72–2005, as well as
the rating temperatures prescribed in
EPACT 2005 for certain types of
commercial refrigerators and freezers.
(42 U.S.C. 6314(a)(6)(B)(i)) As a result,
on December 8, 2006, DOE published a
final rule (December 2006 en masse test
procedure final rule) that, among other
things, adopted ANSI/Air-Conditioning
and Refrigeration Institute (ARI)
Standard 1200–2006, ‘‘2006 Standard
for Performance Rating of Commercial
Refrigerated Display Merchandisers and
Storage Cabinets,’’ (hereafter referenced
as ARI Standard 1200–2006) as the
referenced test procedure for measuring
energy consumption for commercial
refrigeration equipment. 71 FR 71370
(Dec. 8, 2006); 10 CFR 431.63–64. ARI
Standard 1200–2006 prescribes rating
temperature specifications of 38 °F (±2
°F) for commercial refrigerators and
refrigerator compartments, 0 °F (±2 °F)
for commercial freezers and freezer
compartments, and ¥5 °F (±2 °F) for
commercial ice-cream freezers. Even
though ARI Standard 1200–2006
specified a rating temperature for
commercial ice-cream freezers, EPACT
2005 did not specify a rating
temperature or standards for
commercial ice-cream freezers. During
the 2006 test procedure rulemaking,
DOE determined that testing at a ¥15 °F
(±2 °F) rating temperature was more
representative of the actual energy
consumption of commercial freezers
specifically designed for ice-cream
application. 71 FR 71357 (Dec. 8, 2006).
Therefore, in the December 2006 en
masse test procedure final rule, DOE
adopted a ¥15 °F (±2 °F) rating
temperature for commercial ice-cream
freezers, rather than the ¥5 °F (±2 °F)
prescribed in the ARI Standard 1200–
2006. Id. at 71357 (Dec. 8, 2006). In
addition, as part of the 2006 en masse
test procedure final rule, DOE adopted
ANSI/AHAM Standard HRF–1–2004,
‘‘Energy, Performance and Capacity of
Household Refrigerators, RefrigeratorFreezers and Freezers,’’ (hereafter
referred to as AHAM HRF–1–2004) for
measuring refrigerated compartment
volumes for equipment covered under
this rule. Id. at 71358 (Dec. 8, 2006).
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
Approximately one year after the
publication of the December 2006 en
masse test procedure final rule, ARI
merged with the Gas Appliance
Manufacturers Association (GAMA) to
form the Air-Conditioning, Heating, and
Refrigeration Institute (AHRI), and
updated its test procedure, the most
recent version of which is AHRI
Standard 1200–2010, ‘‘2010 Standard
for Performance Rating of Commercial
Refrigerated Display Merchandisers and
Storage Cabinets,’’ (hereafter referenced
as AHRI Standard 1200–2010), which
was approved by ANSI on January 4,
2011. AHRI Standard 1200–2010
includes changes to (1) the equipment
class nomenclature used in the test
procedure, (2) the method of
normalizing equipment energy
consumption, (3) the ice-cream freezer
test temperature, and (4) other minor
clarifications. These changes aligned the
AHRI test procedure with the
nomenclature, rating temperatures, and
normalization method used in DOE’s
2009 energy conservation standards
rulemaking for commercial refrigeration
equipment. 74 FR 1092, 1093–96 (Jan. 9,
2009).
Similarly, AHAM updated Standard
HRF–1–2004 to its most recent version,
AHAM HRF–1–2008, ‘‘Energy and
Internal Volume of Refrigerating
Appliances.’’ The changes to this
standard were mostly editorial and
involved reorganizing some of the
sections for greater simplicity and
usability. As part of the reorganization,
the sections of AHAM HRF–1–2004 that
currently are referenced within the DOE
test procedure, specifically section 3.21,
‘‘Volume’’; sections 4.1 through 4.3,
‘‘Method for Computing Total
Refrigerated Volume and Total Shelf
Area of Household Refrigerators and
Household Wine Chillers’’; and sections
5.1 through 5.3, ‘‘Method for Computing
Total Refrigerated Volume and Total
Shelf Area of Household Freezers’’;
were reorganized and renumbered in the
updated HRF–1–2008. However, the
content of those sections was not
changed substantially. The newly
updated AHRI Standard 1200–2010
references the most recent version of the
AHAM standard, AHAM HRF–1–2008.
As such, DOE is updating its test
procedures to adopt AHRI Standard
1200–2010 as the test procedure for
commercial refrigeration equipment and
AHAM HRF–1–2008 as the prescribed
method for determining refrigerated
compartment volume.
DOE is also incorporating new test
methods in the DOE test procedure to
better address certain energy efficiency
features applicable to CRE that cannot
be accounted for by the current test
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procedure. During the advanced notice
of proposed rulemaking phase of the
2009 energy conservation standards
rulemaking for commercial refrigeration
equipment, DOE screened out several
energy efficient technology options
because their effects were not captured
by the current test procedure. 72 FR
41162, 41179–80 (July 26, 2007). In the
amended test procedure described in
this final rule, DOE is adopting
modifications to its test procedure to
better address some of these
technologies. Specific changes include
provisions for measuring the impact of
night curtains 3 and lighting occupancy
sensors and controls 4.
On May 18, 2010, DOE held a public
meeting (the May 2010 Framework
public meeting) to discuss the
rulemaking framework for the
concurrent CRE energy conservation
standards (Docket No. EERE–2010–BT–
STD–0003). See 75 FR 24824 (May 6,
2010). During the May 2010 Framework
public meeting, DOE received
comments from several interested
parties that additional rating
temperatures should be considered in
the test procedure for certain types of
specialized commercial refrigeration
equipment. The commenters stated that
some covered commercial refrigeration
equipment designed for operation at
higher temperatures is not able to be
tested at the prescribed 38 °F, and they
suggested that DOE consider this in both
the test procedure and the standards
rulemakings. (Docket No. EERE–2010–
BT–STD–0003, California Codes and
Standards, No. 1.3.005 5 at p. 3) For
example, some equipment is designed
for storing goods such as wine, candy,
and flowers at temperatures that are
held constant, but are higher than the
3 Night curtains are devices made of an insulating
material, typically insulated aluminum fabric,
designed to be pulled down over the open front of
the case (similar to the way a window shade
operates) to decrease infiltration and heat transfer
into the case when the merchandizing
establishment is closed.
4 Lighting occupancy sensors are devices that
automatically shut off or dim the lights in display
cases when no motion is detected in the sensor’s
coverage area for a certain preset period of time.
Scheduled lighting control means a device which
automatically shuts off or dims the lighting in a
display case at preset scheduled times throughout
the day.
5 In the Framework document docket for
commercial refrigeration equipment energy
conservation standards, comments were identified
using the following format based on when the
comment was submitted in the rulemaking process.
Section 1.1.XXX refers to Federal Register
documents, section 1.2.XXX refers public meeting
support documents, and 1.3.XXX refers to
comments submitted by interested parties. This
particular notation refers to a comment (1) by
California Codes and Standards, (2) in document
number 5 of the written comments submitted by
interested parties, and (3) appearing on page 3.
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temperatures typically used in
commercial refrigerators for perishable
food storage and merchandising.
(Docket No. EERE–2010–BT–STD–0003,
Structural Concepts, No. 1.2.006 at p.
59) Consequently, in the NOPR DOE
issued on November 24, 2010 to propose
amendments to the test procedure for
commercial refrigeration equipment
(November 2010 NOPR), DOE proposed
provisions for testing commercial
refrigeration equipment that is designed
to operate at temperatures higher than
38 °F at the lowest integrated average
product temperature the equipment can
achieve, defined as the lowest possible
application product temperature. 76 FR
71596, 71605. On January 6, 2011, DOE
held a public meeting (January 2011
NOPR public meeting) to discuss the
amendments proposed in the November
2010 NOPR and to provide an
opportunity for interested parties to
comment (www1.eere.energy.gov/
buildings/appliance_standards/
commercial/pdfs/
fr_cre_nopr_11_24_2010.pdf). At the
January 2011 NOPR public meeting,
DOE received further comments from
interested parties that the proposed
provisions for testing equipment at the
lowest application product temperature
should be expanded to include freezers
and ice-cream freezers. As an example,
interested parties pointed out that ice
storage units are designed to operate at
20 °F. Equipment that operates at 20 °F
would fall into the freezer temperature
category, but interested parties claim
that this specific type of equipment
cannot operate at 0 °F, which is the
prescribed rating temperature for
freezers in the current test procedure.
(True, No. 19 at p. 191 6; Hussmann, No.
19 at pp. 192–93; Traulsen, No. 19 at p.
194) In response to these comments,
DOE is incorporating a provision in this
final rule permitting testing any
equipment that cannot be tested at the
prescribed rating temperature to be
tested at the ‘‘lowest application
product temperature.’’
C. Test Procedure Rulemaking
Requirements and Impact on Energy
Conservation Standards
Under 42 U.S.C. 6314, EPCA sets forth
the criteria and procedures DOE must
follow when prescribing or amending
test procedures for covered equipment.
6 A notation in this form provides a reference for
information that is in the docket of DOE’s
rulemaking to develop test procedures for
commercial refrigeration equipment (Docket No.
EERE–2010–BT–TP–0034), which is maintained at
www.regulations.gov. This notation indicates that
the statement preceding the reference is document
number 19 in the docket for the commercial
refrigeration equipment test procedure rulemaking,
and appears at page 191 of that document.
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EPCA requires that the test procedures
promulgated by DOE be reasonably
designed to produce test results that
reflect energy efficiency, energy use,
and estimated operating costs of the
covered equipment during a
representative average use cycle. EPCA
also requires that the test procedure not
be unduly burdensome to conduct. (42
U.S.C. 6314(a)(2)) 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
any amendment. (42 U.S.C. 6314(b)(1)–
(2))
EPCA also prescribes that if any
rulemaking amends a test procedure,
DOE must determine to what extent, if
any, the proposed test procedure would
alter the measured energy efficiency of
any covered equipment as determined
under the existing test procedure. (42
U.S.C. 6293(e)(1) and 6314(a)(6))
Further, if DOE determines that the
amended test procedure would alter the
measured efficiency of covered
equipment, DOE must amend the
applicable energy conservation standard
accordingly. (42 U.S.C. 6293(e)(2) and
6314(a)(6)) DOE recognizes that the test
procedure amendments adopted in this
final rule will affect the measured
energy use of some commercial
refrigeration equipment. However, DOE
is currently considering amendments to
the existing Federal energy conservation
standards for commercial refrigeration
equipment in a concurrent rulemaking,
(Docket No. EERE–2010–BT–STD–
0003). DOE will use the test procedure
amendments adopted in this final rule
as the basis for standards development
in the concurrent energy conservation
standards rulemaking.
Today’s rule also fulfills DOE’s
obligation to periodically review its test
procedures under 42 U.S.C.
6314(a)(1)(A). DOE anticipates that its
next evaluation of this test procedure
will occur in a manner consistent with
the timeline set out in this provision.
II. Summary of the Final Rule
DOE is modifying its test procedure
for commercial refrigeration equipment
to incorporate current industry-accepted
test procedures, address certain energy
efficiency features that are not
accounted for in the current test
procedure (i.e., night curtains and light
occupancy sensors and controls), and
allow testing of commercial refrigeration
equipment at temperatures other than
one of the three currently specified
rating temperatures. Specifically, this
test procedure final rule permits testing
of commercial refrigeration equipment
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at the lowest application product
temperature. This final rule also allows
manufacturers to test equipment at the
test conditions prescribed by NSF/
ANSI–7, ‘‘Commercial Refrigerators and
Freezers’’ (hereafter referred to as NSF–
7), a food safety standard issued by
NSF.7 The NSF–7 test conditions
represent more stringent rating
temperatures and ambient conditions
than the DOE test procedure conditions
and are required by NSF for food safety
testing of certain commercial
refrigeration equipment. These test
procedure amendments alter the
measured energy efficiency of some
covered equipment. As such, DOE is
establishing in this final rule that use of
the amended test procedure for
compliance with DOE energy
conservation standards or
representations with respect to energy
consumption of commercial
refrigeration equipment is required on
the compliance date of any revised
energy conservation standards, which
are being considered in a concurrent
rulemaking (Docket No. EERE–2010–
BT–STD–0003). DOE has added
language to the final test procedure
amendments to clarify that
manufacturers are required to use the
amended test procedure to demonstrate
compliance with DOE’s energy
conservation standards, and for labeling
or other representations as to the energy
consumption of any covered equipment,
beginning on the compliance date of any
final rule establishing amended energy
conservation standards for commercial
refrigeration equipment. Prior to the
compliance date of this final rule,
manufacturers will continue to use the
existing DOE test procedure established
by the 2006 en masse test procedure
final rule (71 FR 71370 (Dec. 8, 2006)),8
and set forth at 10 CFR 431.64, to show
compliance with existing DOE energy
conservation standards and for
representations concerning the energy
consumption of covered equipment.
In the November 2010 NOPR, DOE
proposed amendments to the existing
test procedure for commercial
refrigeration equipment. 76 FR 71596
(Nov. 24, 2010). DOE held a public
meeting on January 6, 2011 to present
the amendments proposed in the
November 2010 NOPR and received
comments from interested parties. DOE
7 NSF International. ‘‘NSF/ASNI 7—2009:
Commercial Refrigerators and Freezers.’’ Ann
Arbor, MI. https://www.nsf.org/business/
food_equipment/standards.asp.
8 Hereafter, any reference in this document to the
current or existing DOE test procedure will refer to
the test procedure for commercial refrigeration
equipment established by the 2006 en masse test
procedure final rule. 71 FR 71370 (Dec 8, 2006).
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analyzed the comments received as a
result of the January 2011 NOPR public
meeting and incorporated
recommendations, where appropriate,
into this test procedure final rule. The
specific test procedure amendments and
responses to all comments DOE received
as a result of the November 2010 NOPR
are presented in section III,
‘‘Discussion.’’
III. Discussion
Section III.A presents all of the
revisions to the DOE test procedure
found at 10 CFR part 431, subpart C,
‘‘Uniform test method for measuring the
energy consumption of commercial
refrigerators, freezers, and refrigeratorfreezers,’’ incorporated in this final rule,
and discusses the comments received on
these topics during the January 2011
NOPR public meeting and the
associated comment period. These
revisions include the following:
1. Updated references to industry test
procedures to their most current
versions;
2. Inclusion of a method for
determining energy savings due to the
use of night curtains on open cases;
3. Inclusion of a calculation for
determining energy savings due to use
of lighting occupancy sensors or
controls;
4. Inclusion of a provision for testing
at lowest application product
temperature; and
5. Provisions allowing testing of
equipment at NSF test temperatures.
At the January 2011 NOPR public
meeting and in subsequent written form,
DOE received many comments from
stakeholders that did not pertain to a
specific test procedure amendment. In
section III.B, DOE provides responses to
comments pertaining to the following
subject areas:
1. Equipment scope;
2. Effective date;
3. Preemption;
4. Burden of testing;
5. Alternative refrigerants; and
6. Secondary coolant systems.
A. Amendments to the Test Procedure
Today’s final rule incorporates the
following changes to the test procedure
for commercial refrigeration equipment
in 10 CFR part 431, subpart C.
1. Updated References to Industry Test
Procedures to Their Most Current
Versions
In this final rule, DOE is updating the
industry test procedures referenced in
the DOE test procedure for commercial
refrigeration equipment to their most
current versions, namely AHRI Standard
1200–2010 and AHAM Standard HRF–
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1–2008. The current DOE test procedure
for commercial refrigeration equipment,
published in the Federal Register on
December 8, 2006, adopted ARI
Standard 1200–2006, with additional
provisions for testing ice-cream freezers
at ¥15 °F, as the test procedure used to
establish compliance with the
applicable energy conservation
standard. 71 FR 71340, 71356–58. Since
the publication of the December 2006 en
masse test procedure final rule, AHRI
has released an updated version of its
test procedure, AHRI Standard 1200–
2010. The updated test procedure
includes both editorial and technical
changes to (1) the equipment class
nomenclature used within the test
procedure; (2) the integrated average
rating temperature for ice-cream
freezers; and (3) the method of
normalizing and reporting units for
equipment energy consumption. These
changes align the AHRI test procedure
with the nomenclature and method
adopted by DOE in the January 2009
final rule. 74 FR 1092 (Jan. 9, 2009); 10
CFR 431.66. AHRI Standard 1200–2010
is also the test procedure currently used
in the commercial refrigeration
industry. In the November 2010 NOPR,
DOE proposed to incorporate by
reference AHRI 1200–2010 in the DOE
test procedure. 75 FR 71602 (Nov. 24,
2010).
The current DOE test procedure also
references AHAM HRF–1–2004 as the
protocol for determining refrigerated
compartment volume. AHAM has also
updated its Standard HRF–1–2004 to
newer version AHAM HRF–1–2008,
which makes editorial changes
including reorganizing some sections for
greater simplicity and usability. AHRI
1200–2010 also references AHAM HRF–
1–2008. For consistency, in the
November 2010 NOPR, DOE proposed
to incorporate by reference the more
recent AHAM HRF–1–2008 in the test
procedure for measuring refrigerated
compartment volume. 75 FR 71602
(Nov. 24, 2010).
In commenting on the November 2010
NOPR, AHRI, the American Council for
an Energy-Efficient Economy (ACEEE),
and the Northwest Energy Efficiency
Alliance (NEEA) all supported DOE’s
proposals. (AHRI, No. 15 at p. 2; ACEEE,
No. 12 at p. 2; NEEA, No. 8 at p. 3) DOE
did not receive any dissenting
comments. DOE believes AHRI 1200–
2010 and AHAM Standard HRF–1–2008
are the most up-to-date and commonly
used test procedures for commercial
refrigeration in the industry. DOE agrees
with interested parties that these test
procedures are appropriate to
characterize the energy consumption of
all commercial refrigeration equipment
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included within the scope of this
rulemaking. Thus, in this final rule,
DOE is updating the industry test
procedures referenced in the DOE test
procedure for commercial refrigeration
equipment to their most current
versions, AHRI Standard 1200–2010 and
AHAM Standard HRF–1–2008.
2. Inclusion of a Method for
Determining Reduced Energy
Consumption Due to the Use of Night
Curtains on Open Cases
DOE’s current test procedure does not
account for potential decreased energy
consumption resulting from the use of
night curtains on commercial
refrigeration equipment. Night curtains
are devices made of an insulating
material, typically insulated aluminum
fabric, designed to be pulled down over
the open front of the case (similar to the
way a window shade operates) when the
merchandizing establishment is either
closed or the customer traffic is
significantly decreased. The insulating
shield, or night curtain, decreases
infiltration by preventing the mixing of
the cool air inside the case with the
relatively warm, humid air in the store
interior. It also reduces conductive and
radiative heat transfer into the case.
Night curtains reduce compressor loads
and defrost cycles, which can decrease
the total energy use of the commercial
refrigeration equipment. A 1997 study
by the Southern California Edison
Refrigeration Technology and Test
Center found that, when used for 6
hours per day, night curtains reduce
total energy use of the case by
approximately 8 percent.9
In the November 2010 NOPR, DOE
proposed adopting a standardized
physical test method to allow
manufacturers to account for the
possible energy reduction associated
with night curtains installed on open
cases. DOE chose a physical test because
it accurately captures differences in
energy consumption as a function of
similar technologies and case
dimensions. 75 FR 71602–03 (Nov. 24,
2010). It is important to capture the
different impacts on energy
consumption among different night
curtain designs because of the
significant performance disparities that
can exist. For example, night curtains
made of low-emissivity materials, such
as aluminum, decrease the radiative
losses from the case and therefore are
much more effective at reducing heat
9 Southern California Edison, Refrigeration and
Technology and Test Center, Energy Efficiency
Division. Effects of the Low Emissivity Shields on
Performance and Power Use of a Refrigerated
Display Case. August 1997. Irwindale, CA.
www.econofrost.com/acrobat/sce_report_long.pdf.
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loss than night curtains made of plastic,
linoleum, or other non-reflective
materials. In addition, each night
curtain may reduce energy consumption
differently, depending on its particular
insulating characteristics and design.
Case dimensions, air curtain
performance, and base infiltration load
also impact night curtain performance.
A physical test also accurately captures
differences in the energy conservation
performance of night curtains as a
function of case dimension or night
curtain design.
In the November 2010 NOPR, DOE
proposed using a physical test method
similar to section 7.2 in ASHRAE
Standard 72–2005, ‘‘Door-Opening
Requirements,’’ which reads as follows:
Night Curtain Requirements. For open
display cases sold with night curtains
installed, the night curtain shall be employed
according to manufacturer instructions for a
total of 6 hours, 3 hours after the start of a
defrost period. Upon the completion of the
6-hour period, the night curtain shall be
raised until the completion of the 24-hour
test period.
DOE further clarified that the test
procedure for night curtains would, if
adopted, apply only to cases sold with
night curtains installed. 75 FR 71602–03
(Nov. 24, 2010). Following publication
of the November 2010 NOPR, DOE
received comments regarding the
representative use of night curtains, the
types of cases on which night curtains
can be used, and the cost effectiveness
of night curtains. These comments and
DOE’s responses are presented in the
following sections.
a. Representative Use
While interested parties generally
agreed with the proposed test procedure
for night curtains, some interested
parties expressed concerns regarding the
way in which night curtains would be
treated in the standards analysis,
including the concern that the potential
treatment might not be representative of
actual use. Zero Zone stated that, while
it agreed with the proposed test method
for night curtains, it did not believe that
night curtains should be allowed to be
used to reduce measured energy
consumption in the DOE test procedure
because installing them does not
necessarily mean that end users will
deploy them. In addition, Zero Zone
stated that 24-hour stores cannot use
night curtains, and that night curtains
may have a short lifetime. (Zero Zone,
No. 16 at p. 1) AHRI supported
providing a method to account for the
reduced energy consumption of night
curtains, but questioned the origin of
DOE’s 6-hour assumption. (AHRI, No.
19 at pp. 72–73) Earthjustice stated that,
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in accordance with the provisions of
EPCA, which guide DOE’s development
of test procedures and call for the test
procedures to reflect ‘‘representative
use,’’ DOE should account for the
inapplicability of night curtains to
24-hour retailers; the likelihood of end
users actually deploying night curtains;
and the relative lifetime of night
curtains and likelihood of users
replacing broken ones. Earthjustice
added that, while CRE lifetimes span
10 to 15 years according to DOE’s own
figures, research has estimated a 7-year
lifetime for night curtains. (Earthjustice,
No. 11 at p. 1) California Codes and
Standards agreed that night curtains
have significantly shorter lifetimes than
most of the other components that
comprise an open display case, and
suggested that any credit given to night
curtains should be discounted because
their effective life is short. (California
Codes and Standards, No. 13 at p. 3)
The Natural Resources Defense Council
(NRDC) agreed with DOE’s proposal, but
reiterated Earthjustice’s concern that
night curtains are not reliably used in
the field and have shorter lifetimes than
the refrigerated cases. (NRDC, No. 14 at
p. 2) ACEEE recommended that DOE
base its treatment of night curtains on
underlying data that present a realistic
estimate of actual patterns of field use,
the fraction of users who actually
employ them, and the relative lifetimes
of these features. (ACEEE, No. 12 at p.
4) California Codes and Standards
expressed concern that DOE’s treatment
of night curtains might not be
representative of actual in-field usage
and thus might overstate the savings
derived from night curtains. Such use,
the comment stated, is dependent both
on the specific application and on
human (employee) behavior. (California
Codes and Standards, No. 13 at pp. 2–
3) NEEA commented that it believes the
use of night curtains for compliance
testing could grant too much credit to a
feature that has questionable in-field
value, which would undermine the
statutory requirement that the test
procedure reasonably approximate
actual use. In addition, NEEA
commented that night curtains would
have negligible impacts during periods
of peak demand, and that if
manufacturers preferred night curtains
to features that would reduce energy
consumption during peak demand
periods, the incorporation of night
curtains would not be advantageous.
Because of this, NEEA agreed with
DOE’s proposed 6-hour cycle of use for
night curtains in the test procedure
when a case is tested with night curtains
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because it is more conservative than an
8-hour cycle. (NEEA, No. 8 at p. 4)
In response to interested parties’
comments that the intended use of a
night curtain does not necessarily
represent actual use in the field, DOE
acknowledges that actual use of night
curtains may be variable in the field.
However, night curtains are an available
technology for reducing energy
consumption in commercial
refrigeration equipment, and DOE
believes that including night curtains in
its test procedure provides
manufacturers with a mechanism for
estimating the energy consumption
impacts of this technology and provides
a more accurate representation of how
those units may operate when installed.
The test procedure adopted in this final
rule is consistent across all cases sold
with night curtains, regardless of their
anticipated use. With regard to
Earthjustice’s concern with respect to
the use of night curtains in 24-hour
stores, DOE is not mandating the use of
night curtains, but rather is simply
accounting for the use of night curtains
in the 24-hour test procedure. In
addition, DOE notes that night curtains
may in fact be used in 24-hour stores
during periods of low use, although
DOE concedes that this is less common.
In response to AHRI’s question
regarding why DOE proposed 6 hours as
the time period for night curtains to be
implemented, DOE believes that 6 hours
conservatively represents the amount of
time a night curtain would be drawn in
a typical, non-24-hour store, when
accounting for stocking and the fact that
not all night curtains can be deployed
at once. In addition, 6 hours is
consistent with all field data and studies
that DOE has identified.10 11 12
In response to the comments
regarding the expected life of a night
curtain, DOE understands that a night
curtain may have a shorter life than a
display case. However, DOE accounts
for repair and replacement costs in the
energy conservation standards analyses
and believes these issues are better
addressed in that rulemaking. DOE
believes a 6-hour period of use
adequately represents the anticipated
10 Southern California Edison, Refrigeration and
Technology and Test Center, Energy Efficiency
Division. Effects of the Low Emissivity Shields on
Performance and Power Use of a Refrigerated
Display Case. August 1997. Irwindale, CA.
www.econofrost.com/acrobat/sce_report_long.pdf.
11 Faramarzi, R. and Woodworth-Szieper, M.
Effects of Low-E Shields on the Performance and
Power Use of a Refrigerated Display Case. ASHRAE
Transactions. 1999. 105(1).
12 Portland Energy Conservation, Inc. Query of
Database of GrocerySmart Data. Portland, OR.
Received October 18, 2011. Last viewed July 23,
2011.
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use of a night curtain, while DOE is also
cognizant of potential reductions in
energy savings due to application and
field use issues. DOE will discuss
treatment of night curtains further in the
associated energy conservation
standards rulemaking and its impact on
the energy use of commercial
refrigeration equipment (Docket No.
EERE–2010–BT–STD–0003).
b. Applicable Equipment
Southern Store Fixtures stated that
night curtains can only be practicably
used on vertical open display cases, and
further clarified that on semi-vertical
display cases the night curtain can
interfere with the air flow in the case.
(Southern Store Fixtures, No. 19 at p.
135) True Manufacturing (True)
responded that semi-vertical night
curtains do exist. (True, No. 19 at p.
137) Southern Store Fixtures also
commented that an air curtain, which
blows air across the front of an open
case to reduce infiltration, can be
temporarily used to reduce infiltration
and heat loss to the case, and inquired
whether an air curtain would meet
DOE’s proposed definition of a night
curtain. (Southern Store Fixtures, No. 19
at p. 136) NEEA supported DOE’s
proposed definition of night curtain,
provided the definition would be
applied only to open cases of all sorts.
NEEA also stated that, while it is not
opposed to the inclusion of air curtains
in the definition of ‘‘night curtain,’’ it
has seen no data to show that air
curtains are used to reduce infiltration
and heat loss or that they would save
energy. However, NEEA saw no reason
to exclude air curtains from the
definition of night curtain. (NEEA, No.
8 at pp. 3–4)
Zero Zone requested clarification
regarding whether the night curtain
provision could be applied to cases with
doors that also have night curtains
installed (Zero Zone, No. 19 at p. 145),
and offered that night curtains could
provide benefits for doored cases. (Zero
Zone, No. 16 at p. 1) True stated that it
had seen night curtains implemented on
doored cases and that this does save a
minimal amount of energy, but that
these minor savings did not justify
consideration of night curtains in the
DOE test procedure. (True, No. 19 at pp.
146–47) Zero Zone commented that
DOE proposed in the test procedure
NOPR that automatic controls be
required on lighting in order to meet
DOE’s proposed definition of ‘‘lighting
occupancy sensor’’ or ‘‘lighting
control.’’ Given this proposal, Zero Zone
questioned why automatic night
curtains would not then be required to
meet DOE’s definition of ‘‘night
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curtain.’’ (Zero Zone, No. 16 at p. 1)
Southern Store Fixtures commented that
the provision for starting the night
curtain test 3 hours after a defrost
period creates a problem for cases that
are on a timed defrost and scheduled to
defrost every 2 hours. (Southern Store
Fixtures, No. 19 at p. 142) Southern
Store Fixtures added that defrost occurs
more frequently for some open cases. In
response to Southern Store Fixtures,
ACEEE stated that, if the 75/55 rating
condition 13 does not cause frost
accumulation sufficient to require
defrost after 3 hours, it would oppose
any special consideration for equipment
without adaptive defrost. The test
procedure, ACEEE commented, should
not shelter legacy technologies when
more modern alternatives are available.
(ACEEE, No. 12 at pp. 5–6)
In response to interested parties’
comments on the use of night curtains
on doored cases, it is DOE’s
understanding that night curtains can be
applied to all types of open cases
(vertical, semi-vertical, and horizontal)
and that night curtains are most
effective and commonly used on open
cases, rather than on doored cases. DOE
was not able to identify any publicly
available data regarding the use of night
curtains on doored cases. Lacking a
sound technical basis for including
night curtains on doored cases, DOE is
hesitant to expand the definition of
night curtain to explicitly include
doored cases at this time. DOE also
agrees with True in that use of night
curtains on doored cases will not
significantly impact the daily energy
consumption of the display case as
measured by the DOE test procedure.
Therefore, DOE is not extending the
night curtain test procedure to include
night curtain testing on cases with doors
in this final rule. DOE will continue to
monitor the prevalence and energy
saving potential of these technologies in
the market and may address them in a
future rulemaking.
In response to Southern Store
Fixtures’ comment regarding air
curtains, the definition of a night
curtain does not necessarily exclude air
curtains because the definition does not
specify a material or construction. DOE
is defining a night curtain as a
technology that is used temporarily to
reduce infiltration and heat loss on
commercial refrigeration equipment,
without additional qualifiers. In
response to Zero Zone’s comment
13 ‘‘75/55 rating condition’’ describes the standard
ambient temperature and relative humidity
requirements for testing commercial refrigeration
equipment in the DOE test procedure. Specifically,
the DOE test procedure requires equipment be
tested at 75 °F and 55 percent relative humidity.
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regarding automatic night curtains, both
automatic and manual night curtains are
included in this definition, as well as air
curtains, provided that they are
temporarily deployed to decrease air
exchange and heat transfer between the
refrigerated case and the surrounding
environment. To accommodate all
defrost cycles, the test procedure
requires the night curtain to be drawn
3 hours after the first defrost cycle. This
change is consistent with updates that
ASHRAE is considering making to the
ASHRAE Standard 72 requirements for
door openings. This addresses Southern
Store fixtures concern regarding cases
which may defrost every 2 hours and
would never reach a time period ‘‘3
hours after defrost,’’ since those cases
now may select a defrost cycle as the
‘‘first’’ to begin the test and then initiate
the night curtain test 3 hours following
the first defrost.
c. Cost Effectiveness
In response to DOE’s proposal for
testing night curtains, Southern Store
Fixtures commented that DOE should
consider the cost effectiveness of night
curtains and noted that the analysis
supporting the development of State of
California’s Title 24, ‘‘California’s
Energy Efficiency Standards for
Residential and Nonresidential
Buildings,’’ 14 recently showed that
using night curtains is not cost effective.
(Southern Store Fixtures, No. 19 at p.
70) AHRI did not object to the inclusion
of testing provisions for night curtains,
but did not believe the installation of
night curtains is a cost-effective measure
to save a significant amount of energy.
AHRI referenced a study conducted by
California Codes and Standards 15
which examined the cost effectiveness
of night curtains and suggested that
DOE review this study as well. (AHRI,
No. 15 at p. 2) California Codes and
Standards responded that while the
State of California determined that night
curtains were not cost effective, the
analysis did not include the potential
for reduction in radiative heat losses,
which could be substantial. (California
Codes and Standards, No. 19 at pp. 74–
75) AHRI also stated that night curtains
14 Title 24, California Code of Regulations, Part
6—‘‘Efficiency Standards for Residential and
Nonresidential Buildings.’’ April 23, 2008.
15 California Utilities Statewide Codes and
Standards Team. Working Draft Measure
Information Template Supermarket Refrigeration:
2013 California Building Energy Efficiency
Standards. April 2011. www.energy.ca.gov/title24/
2013standards/prerulemaking/documents/2011-0418_workshop/review/2013_CASE_
NR15_Commercial_Refrigeration_working
_draft_4.13.2011.pdf.
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should not be mandated. (AHRI, No. 19
at pp. 72–73)
DOE acknowledges interested parties’
concerns regarding the cost
effectiveness of night curtains. DOE will
perform a cost-effectiveness analysis as
part of the process to consider amended
energy conservation standards for
commercial refrigeration equipment.
Additionally, DOE’s energy
conservation standards are performance
standards, and neither night curtains
nor any other specific technology will
be mandated. Night curtains will be
treated as a design that manufacturers
could use to reduce energy consumption
in the energy conservation standards
analysis. The comments described
above pertain mainly to energy
conservation standards and will be
addressed in more detail in that
rulemaking.
3. Inclusion of a Calculation for
Determining Reduced Energy
Consumption Due to Use of Lighting
Occupancy Sensors or Controls
The current DOE test procedure does
not account for the potential reduction
in energy consumption resulting from
the use of lighting occupancy sensors
and scheduled controls. The potential
for decreased energy use due to the use
of occupancy-based sensors or schedulebased controls varies in the field due to
differing environmental and operating
conditions. However, studies, including
a demonstration project conducted
through the DOE Solid State Lighting
(SSL) Technology Demonstration
GATEWAY program,16 have shown that
lighting occupancy sensors or controls
could reduce the total energy use of a
typical refrigerated merchandising unit
operating in a grocery store by up to 40
percent.17
In the November 2010 NOPR, DOE
proposed a calculation method to
account for the reduced energy
consumption due to the use of lighting
16 DOE’s Solid State Lighting (SSL) Technology
Demonstration GATEWAY program features highperformance SSL products for general illumination
in a variety of exterior and interior applications.
Eligible products are installed at demonstration
host sites, where their performance can be
evaluated. Performance measures include energy
consumption, light output/distribution, and
installation/interface/control issues. Qualitative
performance is investigated via feedback surveys of
the relevant user communities. More information
on the program is available at
www1.eere.energy.gov/buildings/ssl/
gatewaydemos.html.
17 U.S. Department of Energy. Demonstration
Assessment of Light-Emitting Diode (LED) Freezer
Case Lighting. October 2009. Prepared by Pacific
Northwest National Laboratory for the U.S. DOE
Solid State Lighting Technology Demonstration
GATEWAY Program. Washington, DC. https://
apps1.eere.energy.gov/buildings/publications/pdfs/
ssl/gateway_freezer-case.pdf.
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occupancy sensors or controls. The
proposed lighting occupancy sensor test
procedure consisted of three primary
calculations: (1) Calculation of direct
energy use of lighting with occupancy
sensors or scheduled controls installed;
(2) calculation of reduced refrigeration
load when energy use of lights located
within the refrigerated compartment is
decreased; and (3) calculation of the
adjusted daily energy consumption
based on the decreased lighting energy
use and decreased compressor energy
use. These calculations require several
default assumptions, which would be
used uniformly for all cases employing
this test procedure. These assumptions
designate values for the length of time
lighting is off or dimmed due to lighting
occupancy sensors or scheduled
controls, the energy efficiency ratio
(EER) 18 of the compressor, and the
portion of energy produced from the
lights that becomes heat in the case and
increases the refrigeration load. 75 FR
71602–05 (Nov. 24, 2010).
At the January 2011 NOPR public
meeting, DOE presented its proposal for
treatment of lighting occupancy sensors
and scheduled controls. DOE received
comments on the definitions DOE
proposed, the scope of technology
covered, the calculation of energy
savings, and optional physical testing.
As part of the associated CRE energy
conservation standards rulemaking,
DOE also received comments pertaining
to the proposed test procedure provision
for lighting occupancy sensors and
scheduled lighting controls. The
comments DOE received on these
issues, as well as DOE’s responses, are
presented in the following sections.
a. Definition of Lighting Control and
Lighting Occupancy Sensor
In the November 2010 NOPR, DOE
proposed to define ‘‘lighting control’’
and ‘‘lighting occupancy sensor’’ as
follows:
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Lighting control means an electronic device
which automatically adjusts the lighting in a
display case at scheduled times throughout
the day.
Lighting occupancy sensor means an
electronic device which uses passive
infrared, ultrasonic, or other motion-sensing
technology to detect the presence of a
customer or employee, allowing the lights
within the equipment to be turned off or
dimmed when no motion is detected in the
sensor’s coverage area.
75 FR 71611 (Nov. 24, 2010).
In response, NEEA agreed with DOE’s
proposed definitions for lighting
controls, but stated that the term
18 The EER of a particular cooling device is a
measure of its relative efficiency, expressed as the
ratio of the cooling output to the energy consumed.
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‘‘electronic’’ seemed superfluous.
(NEEA, No. 8 at p. 4) Coca-Cola
Company (Coca-Cola) suggested that the
term ‘‘automatic’’ or ‘‘automatically’’ be
added to the definitions of lighting
occupancy sensor and lighting controls.
(Coca-Cola, No. 19 at p. 157) ACEEE
agreed with NEEA that the term
‘‘electronic’’ should be removed from
the definition of lighting control and
occupancy sensor. Additionally, ACEEE
added that the definition of lighting
control should not be limited to
scheduled times, as such a definition
excludes the possibility of accounting
for controllers that respond to ambient
lighting conditions. (ACEEE, No. 12 at
p. 4) ACEEE added that, although such
technologies have not been developed
yet, DOE has allowed for the possibility
of other, more advanced technologies in
other rulemakings by marking some
technologies ‘‘reserved.’’ ACEEE also
commented that it was partially DOE’s
responsibility to investigate these types
of potentially attractive technology
options that are not yet in the
marketplace, and that it was important
to ensure that any potential new
technologies could be tested using the
DOE test procedure. (ACEEE, No. 19 at
pp. 181–82) True responded that the test
procedure and energy conservation
standards do not prevent manufacturers
from innovating new technologies, but
rather set a minimum standard that
manufacturers must meet. True also
commented that the desired lighting
level in cases can differ based on a
number of variables in addition to
ambient lighting level (for example,
based on marketing purposes). (True,
No. 19 at pp. 183 and 186)
Southern Store Fixtures commented
that DOE should consider the
environmental impact of producing
lighting occupancy sensors and controls
and questioned their energy savings in
the field. (Southern Store Fixtures, No.
19 at p. 153)
DOE agrees with interested parties
that the term ‘‘electronic’’ may be
superfluous and is removing the term
from the definitions for ‘‘lighting
occupancy sensor’’ and ‘‘scheduled
lighting control’’ adopted in this final
rule. In addition, DOE agrees with CocaCola that the term ‘‘automatic’’ more
accurately describes the function of the
devices described. DOE will also define
‘‘scheduled lighting control’’ instead of
‘‘lighting control,’’ as this term is more
descriptive of the device being defined.
With respect to lighting controls that
respond to external factors other than
motion or physical presence, such as
ambient light, DOE does not believe any
such technologies are widely used and
is not aware of any data regarding their
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efficacy. While these factors do not
prevent DOE from including the
potential for such technologies in the
definition of lighting controls or in a
new definition, the calculations in the
test method for lighting occupancy
sensors and controls were based on the
potential reduction in energy
consumption associated specifically
with lighting occupancy sensors and
schedule-based controls. DOE believes
that applying these same ‘‘time off’’ or
‘‘time dimmed’’ assumptions to other
technologies may not be representative
of their actual performance and would
not be appropriate. DOE has not been
able to identify any data related to the
energy savings of lighting sensors that
adjust case lighting based on ambient
lighting. Because DOE is currently using
a calculation method based on the
estimated hours a lighting sensor will
dim or turn off lights to calculate
lighting energy savings, it would be
difficult to incorporate provisions for
other types of sensors without data
regarding their anticipated or realized
efficacy. In the absence of such data, it
is difficult for DOE to estimate a
representative energy savings from
ambient light sensors. Therefore, DOE
does not intend to include provisions
for ambient light sensors or other sensor
technologies in the definition of lighting
sensors and/or controls.
With respect to Southern Store
Fixtures’ comment that DOE should
assess the environmental impact of
manufacturing lighting occupancy
sensors and weigh the impact against
the achieved savings, DOE believes
lighting occupancy sensors have proven
effective over their lifetime and can save
energy when installed on commercial
refrigeration equipment. DOE will
assess the environmental impact of
lighting occupancy sensors in the
energy conservation standards
rulemaking (Docket No. EERE–2010–
BT–STD–0003). However, DOE notes
that life-cycle environmental impacts of
equipment manufacture and disposal
are typically outside the scope of the
environmental impact analysis
performed in any standards rulemaking.
b. Manual Controls
In the November 2010 NOPR, DOE’s
definitions of ‘‘lighting control’’ and
‘‘lighting occupancy sensor’’ both dealt
exclusively with automatic
technologies. 75 FR 71611 (Nov. 24,
2011). At January 2011 NOPR public
meeting, AHRI and Zero Zone
commented that it was inconsistent for
DOE to allow night curtains that must
be deployed manually to achieve energy
savings in the DOE test procedure, but
not to allow manual light switches to
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
only apply when the switch is on-board
the display case. (California Codes and
Standards, No. 19 at p. 187) As part of
the rulemaking for the CRE energy
conservation standards (Docket No.
EERE–2010–BT–STD–0003), DOE
published the Notice of Public Meeting
and availability of the CRE Preliminary
Analysis Technical Support Document
(76 FR 17573 (March 30, 2011)) and
held a public meeting on April 19, 2011
at DOE headquarters in Washington, DC
During the commercial refrigeration
equipment preliminary analysis public
meeting (April 2011 Preliminary
Analysis public meeting) and in
subsequent written comments,
numerous interested parties stated that
many cases were installed with remote
lighting sensors or controls that were
operated at the aisle or store level.
(Docket No. EERE–2010–BT–STD–0003,
Southern Store Fixtures, No. 31 at pp.
190–91, 194; Zero Zone, No. 31 at p.
196; California Investor Owned
Utilities,19 No. 42 at p. 4) NEEA
responded that cases wired uniquely to
receive a remote energy management
system should receive credit in the DOE
test procedure. (Docket No. EERE–2010–
BT–STD–0003, NEEA, No. 31 at p. 195)
There are several ways in which a
manufacturer, refrigeration contractor,
or store owner can implement lighting
controls, including individual case
controls, single controls serving an
entire case lineup, and storewide energy
management systems. Including remote
lighting controls in the test procedure
could inadvertently set a precedent for
deeming remote energy management
technologies to be part of the covered
equipment and allocating energy
savings gained by these external devices
to associated pieces of equipment. For
example, a remote lighting control
system may control systems other than
commercial refrigeration equipment,
and such systems are typically not sold
with a piece of commercial refrigeration
equipment. Cases set up to interact with
these remote control systems have a
dedicated circuit for lights so that the
lights can be controlled separately from
the rest of the case. However, this
lighting circuit configuration does not
inherently save energy and must be
paired with an energy management
control system. These energy
management systems are sold separately
from the piece of commercial
refrigeration equipment, may be
produced by a different manufacturer
from the one that produces the case, and
are not integral to the commercial
refrigeration equipment.
DOE acknowledges that remote
lighting controls do save energy and
may be the more commonly used
technology to dim or turn off lights in
the field. However, energy consumption
for a piece of commercial refrigeration
equipment must be determined using
the DOE test procedure on a
representative unit, as shipped from the
point of manufacture. 76 FR 12422,
12453 (March 7, 2011) Because a remote
energy management system is not part
of the piece of equipment as shipped
from the manufacturer, but rather it is
a separate piece of equipment that may
be supplied by a separate manufacturer,
remote energy management controls
will not be considered in this test
procedure final rule.
Where:
CECA= alternate compressor energy
consumption (kilowatt-hours);
LECsc = lighting energy consumption of
internal case lights with lighting
occupancy sensors and controls
deployed (kilowatt-hours);
Pli = rated power of lights when they are fully
on (watts);
tl = time lighting would be on without
lighting occupancy sensors or controls
(24 hours); and
EER = energy efficiency ratio from Table 1 in
AHRI Standard 1200–2010 for remote
condensing equipment and the values
shown in Table III.1 of this document for
self-contained equipment (British
thermal units per watt (Btu/W)).
19 ‘‘California Investor Owned Utilities’’ refers
here to a joint comment submitted by Southern
California Edison, Pacific Gas and Electric
Company, Southern California Gas Company, and
San Diego Gas and Electric in Docket No. EERE–
2010–BT–STD–0003.
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c. Remote Lighting Controls
In the November 2010 NOPR, DOE
proposed that remote lighting control
systems would not receive credit for any
potential energy savings in the DOE test
procedure. 75 FR 71605 (Nov. 24, 2010).
California Codes and Standards
commented that some scheduled
lighting controls are external to the case,
and inquired whether cases in which
the controls were installed external to
the case would receive credit under the
proposed test procedure. (California
Codes and Standards, No. 13 at p. 5)
California Codes and Standards
suggested that DOE clearly state that the
credit for time switch control would
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d. Representative Energy Savings
In addition to conserving energy
directly through decreased lighting
electrical load, occupancy sensors also
decrease the heat load from lights that
are located inside the refrigerated space
of refrigeration equipment. Therefore, as
part of the calculation method for
lighting occupancy sensors and
controls, DOE proposed a calculation
method to account for these energy
impacts in the November 2010 NOPR.
75 FR 71602–05 (Nov. 24, 2010). This
calculation, as proposed, quantifies the
reduced compressor energy use
resulting from lighting occupancy
sensors and scheduled controls and
relies on a table of fixed compressor
EERs, as described below.
E:\FR\FM\21FER3.SGM
21FER3
ER21FE12.000</GPH>
receive credit for energy savings. (AHRI,
No. 19 at p. 152; Zero Zone, No. 19 at
p. 160)
While DOE acknowledges that manual
switches can be used to dim or turn off
case lighting to save energy when a store
is closed, DOE is not aware of any data
that substantiate their use. Because DOE
does not have any data on which to base
the treatment of manual switches,
including a provision for manual light
switches in the test procedure would be
very speculative. In addition, DOE has
observed that most cases spanning the
full range of efficiencies currently
available on the market already include
manual light switches installed. In
contrast, night curtains and other
automatic lighting controls technologies
are sold as energy efficiency features
incorporated into only higher efficiency
commercial refrigeration equipment.
Further, manual switches have been
installed on cases for some time as a
utility feature, to turn off lights when
replacing light bulbs for example, rather
than as an energy saving feature.
Lacking data that substantiate the use
of manual switches to save additional
energy, and given the fact that manual
light switches are a baseline technology
and are not installed to produce energy
savings, DOE is not including manual
switches in the definition of a lighting
control technology.
Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
open cases. (California Codes and
Standards, No. 13 at pp. 4–5)
With respect to its compressor EER
values, DOE believes that the same
values can be used for all self-contained
equipment because compressor
EER
Operating temperature class
efficiency is primarily a function of
Btu/W
compressor design for a given
Medium .........................................
11.26 combination of load, product
Low ...............................................
7.14 temperature, and ambient conditions,
Ice Cream .....................................
4.80 rather than a specific case geometry. In
addition, as a precedent, Table 1 in
Notes:
1. EER values for operating temperature AHRI 1200–2010 provides EER values
classes are calculated based on the average for remote condensing equipment that
EER value of all equipment in that class, analyzed as part of the previous energy conserva- are not specifically directed toward
tion standards rulemaking for commercial re- either open or closed refrigerated cases.
frigeration equipment (2009 rulemaking). 74 DOE recognizes that the EER values
FR 1092 (Jan. 9, 2009). This does not include presented in the November 2010 NOPR
equipment for which standards were set by are not exact quantitative
Congress in EPACT 2005 (VCT, VCS, HCT,
HCS, and SOC at medium (M) and low (L) representations of specific compressor
temperatures) or classes for which standards designs on the market, and that
were set using extension multipliers in the compressor performance will vary based
2009 rulemaking (VOP.SC.L, SVO.SC.L, on compressor manufacturer and model,
VOP.SC.I, SVO.SC.I, HZO.SC.I, VOP.SC.I,
SVO.SC.I, HZO.SC.I, HCS.SC.I, SOC.SC.I). operating conditions, and the overall
This nomenclature is described in the 2009 design of the specific refrigeration
rulemaking. 74 FR1093.
system in which the compressor is used.
2. These values only represent compressor However, DOE believes that the EER
EERs and do not include condenser fan envalues it proposed are sound
ergy use.
representations of default compressor
Southern Store Fixtures stated that
performance available in the
assigning average values for the EER in
marketplace today that, when applied
the calculation of energy reduction due
equally to all equipment, will yield a
to lighting occupancy sensors would
consistent and repeatable result. DOE
penalize manufacturers that have more
acknowledges that two decimal points is
efficient compressors. (Southern Store
not appropriate for these default values
Fixtures, No. 19 at p. 170) NEEA stated
and has revised them to the nearest
that not including the condenser fan
whole number for this final rule. (See
energy consumption in the EER value
the amendments to 10 CFR 431.64
creates an over-credit for any heat load
(b)(2)(iii), following this preamble).
that is not imposed on the case, and
In response to comments that DOE
agreed with Southern Store Fixtures that did not account for condenser fan
this approach gives more credit to less
energy consumption, DOE assumed the
efficient compressors. (NEEA, No. 19 at
compressor fan runs continuously in
p. 171) NEEA further stated that, while
self-contained equipment in the
it has no issue with the direct savings
calculations for reduced compressor
from lighting controls as proposed in
energy consumption resulting from the
the test procedure, it does not support
use of lighting occupancy sensors and
the proposed method for calculating
scheduled controls. This assumption
indirect energy savings. First, according may slightly underestimate the savings
to NEEA, DOE should account for
in some cases, but DOE believes it
condenser fan energy use. Second,
adequately represents expected energy
NEEA disagreed with the compressor
savings in the field. DOE agrees that it
EER values in the November 2010 NOPR is important that the default compressor
because the values are carried out to two EER values not exaggerate energy
decimal places, which NEEA described
savings or disincentivize energy
as unnecessary. Third, NEEA stated that efficiency in compressors. However,
light-emitting diode lighting would
because these values are applied to all
lessen the impact on compressor loads.
commercial refrigeration equipment,
Fourth, NEEA disagreed with the idea
regardless of actual performance, DOE
that a single factor be used for
does not believe the default values will
discounting lighting heat load, instead
affect or motivate compressor selection
suggesting that this factor varies by case or design, as they will produce
type. (NEEA, No. 8 at p. 5) California
comparable results across all systems to
Codes and Standards also suggested that which they are applied.
DOE research and incorporate different
Because DOE is allowing the option of
multiplicative factors for alternate
a physical test to determine savings
compressor energy consumption for
from lighting occupancy sensors and
open versus closed cases, because a
controls (see section III.A.3.e), DOE
lower factor may be appropriate for
must be cognizant of the fact that the
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TABLE III.1—EER FOR SELF-CONTAINED COMMERCIAL REFRIGERATED
DISPLAY
MERCHANDISERS
AND
STORAGE CABINETS
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10301
calculated reduction in refrigeration
load and associated indirect energy
savings are comparable to those that
would be measured in the physical test.
In revising the EER values, DOE has also
attempted to ensure that the default
values do not result in greater savings
than would be achieved if a case with
an efficient compressor were tested.
Because the calculation does not
account for reduced compressor fan
power or heat leakage from the
compressor into the case, DOE believes
that the EER values will not
significantly overestimate indirect
lighting energy savings. In addition,
because the physical test method is
optional, a manufacturer may always
choose to use the calculation method,
which is consistent across all
equipment.
e. Optional Physical Test
In the November 2010 NOPR, DOE
proposed a calculation method to
account for the energy savings due to
the use of lighting occupancy sensors or
controls. DOE proposed a calculation
method because it believed it would be
representative, consistent, and relatively
less burdensome for manufacturers
compared to a physical test. In this
assessment, DOE accounted for the fact
that manufacturers may need to conduct
tests with lights on for the duration of
the test for other programs, for example
for ENERGY STAR® 20 certification. 75
FR 71600, 71605 (Nov. 24, 2010).
At the January 2011 public meeting
and in subsequent written comments,
Coca-Cola, NEEA, and California Codes
and Standards suggested that DOE allow
optional empirical testing for the energy
reduction associated with lighting
controls. (Coca-Cola, No. 19 at p. 172;
NEEA, No. 19 at p. 175; California
Codes and Standards, No. 13 at p. 5)
Earthjustice stated that the method
proposed in the November 2010 NOPR
ignores condenser fan energy use,
underestimates compressor EER, and
uses a fixed discount factor for the
lighting heat load that, in actuality,
would vary by unit. Earthjustice further
stated that testing with lighting off or
dimmed would resolve this issue
without adding additional burden.
(Earthjustice, No. 11 at p. 2) NEEA
agreed with Earthjustice and
commented that actual testing of
lighting controls would be a superior
way to account for their impacts, and
20 ENERGY STAR is a joint program of the U.S.
Environmental Protection Agency and DOE that
establishes a voluntary rating, certification, and
labeling program for highly energy efficient
consumer products and commercial equipment.
Information on the program is available at
www.energystar.gov/index.cfm?c=home.index.
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
that DOE should either require testing or
make it optional rather than relying
solely on calculations. (NEEA, No. 8 at
pp. 5–6)
ACEEE commented that alternative
lighting methods, for example fiber
bundles, could be developed, and that
the DOE test procedure should provide
a way for lighting vendors to capture the
energy savings of new, innovative
lighting technologies so that they can
promote the technology to case
manufacturers. (ACEEE, No. 19 at p.
173)
Hussmann Corporation (Hussmann)
cautioned that the DOE test procedure
should be cognizant of the repeatability
of test results using a physical test
method, specifically when units are
tested at third-party laboratories.
(Hussmann, No. 19 at p. 175) Traulsen
commented that physically testing the
energy reduction of lighting occupancy
sensors and scheduled controls could be
done with a $20 to $60 timing device,
which translates to approximately $100
when accounting for markups. Traulsen
added that $100 could be problematic
for some small manufacturers.
(Traulsen, No. 19 at p. 177)
DOE agrees with NEEA and
Earthjustice that an optional physical
testing method would be more
representative of actual condensing unit
energy reduction for a given case.
However, DOE also agrees with
Traulsen that physical testing should be
an optional method due to the increased
burden associated with additional
testing. In response to Hussmann’s
comment, DOE believes the test
procedure amendments for lighting
occupancy sensors and scheduled
controls adopted in this final rule,
which allow for use of the calculation
method or performance of a physical
test, are sufficiently repeatable for the
purpose of showing compliance with
DOE energy conservation standards.
Thus, in this test procedure final rule,
DOE is incorporating provisions that
allow manufacturers to choose either
the calculation method or a physical test
to demonstrate and credit energy
savings associated with lighting
occupancy sensors and scheduled
controls. DOE believes that continuing
to provide a calculation method for
lighting occupancy sensors and controls
is a less burdensome and more
consistent method to account for the
energy savings associated with these
technologies. Nonetheless, if a
manufacturer wishes to account for the
energy reduction associated with
lighting occupancy sensors and controls
through physical testing, DOE is
specifying that a physical test may be
performed. The physical test will be
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prescribed as ‘‘optional’’ to allow the
use of a calculation method to reduce
burden on manufacturers and provide
flexibility in the rating of equipment. In
response to ACEEE’s comment regarding
the treatment of innovative new lighting
technologies, DOE believes the optional
physical test will allow manufacturers
to measure the energy consumption of
any new lighting technology that cannot
be characterized by the calculation
method. In either case, manufacturers
will be expected to record which test
method, calculation or physical, was
used to determine the energy
consumption of the equipment and to
keep this information as part of the data
underlying the certification. For DOEinitiated testing, DOE will run the
optional physical test.
4. Inclusion of a Provision for Testing at
Lowest Application Product
Temperature
DOE has developed equipment classes
based on three distinct temperature
categories: (1) refrigerators that operate
at or above 32 °F and are tested at an
integrated average temperature of 38 °F
(±2 °F); (2) freezers that operate below
32 °F and above ¥5 °F and are tested
at an integrated average temperature of
0 °F (±2 °F); and (3) ice-cream freezers
that operate at or below ¥5 °F and are
tested at an integrated average
temperature of ¥15 °F (±2 °F). 10 CFR
431.66(d)(1)
During the May 2010 Framework
public meeting, several parties
commented that some equipment
covered under this rulemaking is
designed to operate at significantly
higher temperatures than the designated
temperature for the corresponding
equipment class. Specifically, California
Codes and Standards stated that DOE
should review test methods for niche
equipment that may require different
temperature criteria and schedules.
(Docket No. EERE–2010–BT–STD–0003;
California Codes and Standards, No. 5 at
p. 3) Structural Concepts also stated that
some types of equipment, such as candy
and wine cases, operate at 55 or 60 °F,
yet would have to be tested at 38 °F to
meet an energy conservation standard,
which is problematic because these
units are not designed to operate at that
temperature. (Docket No. EERE–2010–
BT–STD–0003; Structural Concepts, No.
6 at p. 59)
AHRI Standard 1200–2010 includes
provisions for such equipment to be
rated at the application product
temperature. To accommodate
equipment that operates at temperatures
much greater than the 38 °F (±2 °F)
rating temperature, in the November
2010 NOPR DOE proposed including a
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provision for testing refrigerators that
cannot operate at the prescribed 38 °F
(±2 °F) integrated average rating
temperature, permitting them to be
tested at the lowest application product
temperature. In the November 2010
NOPR, ‘‘lowest application product
temperature’’ was defined as ‘‘the
lowest integrated average product
temperature achievable and
maintainable within ± 2 °F for the
duration of the test.’’ 75 FR 71605 (Nov.
24, 2010). DOE clarified that, for
equipment rated at the lowest
application product temperature, the
integrated average temperature achieved
during the test should be recorded, and
that equipment tested at the lowest
application product temperature would
still be required to comply with the
applicable standard for its respective
equipment class. 75 FR 71605 (Nov. 24,
2010). DOE received several comments
related to (1) the definition of lowest
application product temperature; (2)
expanding the definition of lowest
application product temperature to
include freezers and ice-cream freezers
that cannot operate at the specified
rating temperatures; (3) the energy
conservation standard for equipment
tested at the lowest application product
temperature; and (4) how the provision
for lowest application product
temperature would accommodate
remote condensing equipment. The
specific comments and DOE’s responses
are provided in the subsequent sections.
a. Definition of Lowest Application
Product Temperature
In comments received during the
November 2010 NOPR comment period,
NEEA stated that lowest application
product temperature could be defined as
the lowest temperature setting on the
thermostat, and that DOE needs to better
define what the lowest temperature is
and how it is determined. (NEEA, No.
19 at p. 213) True responded that the
lowest application product temperature
is based on a number of factors and that
units should be tested at the lowest set
point. (True, No. 19 at p. 214) NEEA
also stated that, due to the differences
in types, applications, and
configurations for applicationtemperature equipment, DOE must
establish test procedures for this
equipment that address the way that
they are designed and controlled, as
well as the ambient conditions in which
they are operated, regardless of the
shipment volume, in accordance with
EPCA. (NEEA, No. 8 at p. 6) ACEEE
commented that the lowest application
temperature should be standardized,
and inquired whether manufacturers
would be able to test to any temperature
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they want, or if the lowest application
product temperature will be restricted to
one or a few values. ACEEE added that
equipment comparison would be
difficult if there is no standardization.
(ACEEE, No. 19 at pp. 217 and 219)
DOE believes that ‘‘the lowest
thermostat setting’’ may not be a
prescriptive enough definition in all
cases. In some cases, the CRE does not
contain an adjustable thermostat, which
can be manually changed for testing.
DOE agrees with True that the lowest
application product temperature is
based on a number of factors and cannot
be limited to one CRE accessory. DOE
intends to provide manufacturers with
the flexibility to determine the lowest
application product temperature for a
given case only when the CRE cannot be
tested at the specified rating
temperatures. The phrase ‘‘lowest
application product temperature’’ is also
consistent with the nomenclature used
in the Canadian energy efficiency
regulations and test procedures for selfcontained commercial refrigerators,
freezers, and refrigerator freezers,
established by Natural Resources
Canada.21 In most cases with
thermostats, DOE agrees that the lowest
application product temperature is, in
fact, the lowest thermostat set point.
In response to ACEEE’s comments,
DOE is not restricting the lowest
application product temperature to
specific values. To qualify to use the
lowest application product temperature
for a certain piece of equipment, a
manufacturer should be confident that
any case tested under that equipment
rating could achieve the specified
lowest application product temperature
within ±2 °F and could not be tested at
the rating temperature for the given
equipment class. Further, manufacturers
should clearly document any variation
in rating temperature setting in the test
data they maintain underlying the
certification of each basic model. In this
test procedure final rule, DOE has better
defined how the proper test temperature
is to be determined and has clarified
that, for many pieces of equipment, this
will be the lowest temperature setting
on the unit’s thermostat. DOE agrees
with commenters that it is important to
designate equipment tested using the
lowest application product temperature
provision to ensure they are not
incorrectly compared with units that are
tested at the specified rating
temperature. While DOE is not
modifying the certification requirements
in this final rule to require
21 Natural Resources Canada, Office of Energy
Efficiency. ‘‘Energy Efficiency Regulations.’’
Canada Gazette. Part I; June 2010.
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manufacturers to report the temperature
at which the unit was tested (if other
than the rating temperature), DOE is
requiring that documentation be
maintained as part of the test data
underlying the certification. Further, the
certified ratings calculated from the test
data and applicable sampling plans
should reflect the energy consumption
measured at the lowest application
product temperature setting.
b. Extension of Lowest Application
Product Temperature Rating to All
Equipment Classes and Rating
Temperatures
At the January 2011 NOPR public
meeting, several interested parties
commented that there is a second
category of equipment, including ice
storage cases operating at 20 °F, that are
unable to be tested at the prescribed
rating temperature for freezers, or 0 °F
(±2 °F). The commenters suggested that
the provisions for testing at the lowest
application product temperature should
be expanded to freezers and ice-cream
freezers to accommodate equipment that
cannot be rated at the prescribed test
temperature for its equipment class.
(True, No. 19 at p. 191; Hussmann, No.
19 at pp. 192–93; Traulsen, No. 19 at p.
194; Zero Zone, No. 16 at p. 2; AHRI,
No. 15 at pp. 2–3) Hussmann added that
a case designed for 20 °F that is not
required to be designed to be tested at
0 °F (±2 °F) for certification would be
more efficient overall. (Hussmann, No.
19 at pp. 192–93)
DOE also has noticed that some
equipment may not be able to be tested
at the prescribed rating temperature
because the operating temperatures are
below the specified rating temperature
(e.g., a piece of commercial refrigeration
equipment that operates at temperatures
between 32 and 36 °F and cannot be
tested at an integrated average
temperature of 38 °F).
DOE understands that some
equipment cannot be tested at its
prescribed rating temperature and is
adopting provisions in this final rule to
accommodate testing for those units at
the lowest application product
temperature. In response to interested
parties’ comments regarding equipment
that operates at, for example, 20 °F, and
thus falls into the freezer temperature
range, but is not able to be tested at the
prescribed rating temperature for
freezers, 0 °F (±2 °F), DOE is expanding
the ‘‘lowest application product
temperature’’ provision to freezers and
ice-cream freezers. With regard to
differentiation of equipment that was
tested at the specified rating
temperature, DOE is requiring
manufacturers to maintain
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documentation of the temperature at
which the unit was tested (if other than
the DOE prescribed rating temperature)
as part of the test data underlying the
certification, as well as base any
certified ratings on the energy
consumption of the equipment as
determined using the lowest application
product temperature test procedure.
DOE also notes that while some
equipment theoretically may not be able
to be tested at the prescribed rating
temperature because it operates at
temperatures lower than the specified
rating temperature and cannot reach the
specified rating temperature, DOE is not
aware of this occurring in any
equipment that is currently marketed
and sold in the United States, and DOE
believes there is little possibility of this
occurring. To provide clarity in
differentiating equipment that cannot be
rated at the prescribed rating condition,
DOE will continue to refer to this
provision as the ‘‘lowest application
product temperature.’’ However, to
account for all possible temperature
ranges of equipment, DOE is defining
the ‘‘lowest application product
temperature’’ as ‘‘the temperature
closest to the equipment’s specified
rating temperature that the unit can
achieve (±2 °F).’’ In this case, ±2 °F
refers to the repeatability of the lowest
application product temperature.
c. Energy Conservation Standard for
Equipment Tested at the Lowest
Application Product Temperature
In the November 2010 NOPR, DOE
proposed that equipment tested at the
lowest application product temperature
still be required to comply with the
standard for its respective equipment
class. 75 FR 71605–06 (Nov. 24, 2010).
DOE made this proposal due to the
small fraction of equipment that DOE
expects to be rated using the lowest
application product temperature
provision. DOE analyzed the shipments
data provided by ARI during the
Framework comment period of the 2009
energy conservation standards
rulemaking. (Docket No. EERE–2006–
BT–STD–0126, ARI, No. 7 Exhibit B at
p. 1). DOE found that, excluding that
equipment for which EPACT 2005
amended EPCA to set standards (i.e.,
self-contained commercial refrigerators
and commercial freezers with doors) (42
U.S.C. 6313(c)(2)), only 1.7 percent of
units for which standards were
established operate at ‘‘application
temperatures,’’ namely 45 °F, 20 °F,
10 °F, or ¥30 °F. Of these, units that
operate at 45 °F (typically ‘‘wine
chillers’’) had the highest shipments,
and these units were predominantly
remote condensing equipment. Given
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the relatively low shipment volumes of
equipment that operates at application
temperatures, DOE did not believe it
was justified in developing separate
standards for equipment that operates at
an application temperature different
than one of the three prescribed rating
temperatures. 74 FR 1104 (Jan. 9, 2009).
At the January 2011 NOPR public
meeting and in written comments
submitted during the public comment
period, many interested parties
commented on DOE’s proposal that
equipment tested at the lowest
application product temperature would
still be required to comply with the
standard for its respective equipment
class. California Codes and Standards,
ACEEE, NEEA, and NRDC all agreed
that it is reasonable to test equipment
not capable of achieving a rating
temperature at its lowest operating
temperature, provided this equipment
represents a small market share and is
appropriately differentiated to prevent
loopholes. (California Codes and
Standards, No. 13 at p. 5; ACEEE, No.
12 at p. 5; NEEA, No. 8 at pp. 6–7;
NRDC, No. 14 at pp. 1–2) NRDC
suggested that equipment that cannot be
tested below 38 °F should be labeled
and sold with its projected annual
energy consumption data indicating the
lowest temperature achievable during
testing, and should be clearly
differentiated from equipment that
meets the required testing temperatures.
(NRDC, No. 14 at p. 2) ACEEE suggested
that DOE define equipment classes in a
manner that prevents the substitution of
less efficient equipment for more
efficient general-duty equipment.
(ACEEE, No. 12 at pp. 1–2) ACEEE also
expressed concern regarding the
presence of ice cabinets on the market,
and questioned how DOE could
differentiate ice cabinets from freezers if
they are rated at application
temperature, so that they are not used
inappropriately for frozen food storage.
(ACEEE, No. 12 at p. 5) NEEA disagreed
with DOE’s tendency to refer to
equipment with application
temperatures above 38 °F as ‘‘medium
temperature’’ because some of this
equipment operates at significantly
higher temperatures than the medium
temperature rating condition of 38 °F.
Therefore, NEEA suggested that this
equipment be referred to as ‘‘high or
elevated temperature’’ equipment.
Additionally, NEEA asserted that ice
storage cabinets, or any other equipment
operating at an operating temperature
between 0 °F and 38 °F, should not be
called ‘‘medium’’ or ‘‘low’’ temperature.
(NEEA, No. 8 at pp. 6–7)
True asked whether ice chests or
freezers that are designed to operate at
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20 °F and cannot be tested at 0 °F (±2
°F) would be required to meet the
refrigerator or the freezer energy
conservation standard. (True, No. 19 at
p. 207) California Codes and Standards
and NRDC also stated that the standard
levels should be correspondingly
adjusted to avoid loopholes, as
otherwise, less efficient equipment
potentially could comply if it were
allowed to be tested at a higher
operating temperature. (California Codes
and Standards, No. 13 at p. 5; NRDC,
No. 14 at pp. 1–2) California Codes and
Standards suggested that DOE create a
method to scale standards based on
rating temperature, and stated that this
would not require additional equipment
classes. (California Codes and
Standards, No. 19 at pp. 223 and 227)
NRDC stated that, while DOE’s past
reasoning for not setting specific
requirements for applicationtemperature equipment was based on
the small size of the market, a forwardlooking standard should include this
equipment and set efficiency levels for
it. (NRDC, No. 14 at p. 2) Sean Gouw
(unaffiliated) commented that DOE had
created product classes for niche
products with low market share before,
for example built-in residential
refrigerators. (Gouw, No. 19 at p. 234)
AHRI commented that refrigerated
cases that cannot operate at an
integrated average temperature of 38 °F
are niche products and represent a small
part of the market. (AHRI, No. 19 at p.
228) Southern Store Fixtures
commented that cases rated for higher
temperatures do not necessarily use less
energy because they may require
additional heaters for humidity control.
(Southern Store Fixtures, No. 19 at
p. 229)
DOE maintains that units tested at the
lowest application product temperature
will still be required to meet the
applicable energy conservation standard
based on their equipment class. While
DOE understands that this approach
may result in slightly less stringent
standards for the small number of units
that cannot be tested at the prescribed
rating temperatures, as interested parties
pointed out, DOE does not believe that
establishing separate equipment classes
for these niche types of equipment
would be justified given their small
shipment volume and the wide diversity
of niche products.
DOE agrees with interested parties
that preventing loopholes that would
allow less efficient equipment to be sold
is very important. However, DOE
believes that allowing testing at the
lowest application product temperature
for all temperature classes allows for
coverage of more equipment and may
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allow ‘‘intermediate’’ equipment that
cannot operate at its prescribed test
temperatures to be designed to operate
more efficiently. It is not expected that
this will create an opportunity for less
efficient equipment to be sold because
DOE is requiring units tested at the
lowest application product temperature
to be retested if the thermostat is
changed.
California Codes and Standards also
suggested scaling the energy
consumption data for equipment tested
at application temperatures to reflect
projected energy consumption at the
relevant rating temperature. (California
Codes and Standards, No. 19 at pp. 223
and 227) However, DOE agrees with
Southern Store Fixtures that testing
these units at a higher integrated
average temperature does not
necessarily mean that the unit will use
less energy. The variability in energy
use and the impact of variation in
integrated average temperature will
depend on case type, geometry, and
configuration. This makes it very
difficult to set a consistent scaling factor
or incorporate temperature into the
standards equations, as any value
chosen would be not be representative
of all cases. This issue will be discussed
further in the energy conservation
standards rulemaking (Docket No.
EERE–2010–BT–STD–0003).
With respect to NEEA’s suggestion
that equipment rated at lowest
application product temperature be
referred to as ‘‘high or elevated
temperature’’ equipment, DOE cannot
control how equipment is referred to or
categorized in the market beyond the
equipment classes DOE specifies. Since
DOE is not creating a unique equipment
class for this equipment, DOE will
continue to categorize the equipment
based on its appropriate equipment
class.
d. Remote Condensing Units and the
Lowest Application Product
Temperature
In the November 2010 NOPR, DOE
proposed that the lowest application
product temperature provision apply
equally to self-contained and remote
condensing commercial refrigeration
equipment. 75 FR 71605 (Nov. 24,
2010). AHRI inquired how the lowest
application product temperature would
apply to remote condensing equipment,
because the lowest operating
temperature for remote condensing
equipment is dependent on the
condensing unit to which it is attached.
(AHRI, No. 19 at p. 203) Zero Zone
commented that the approach for testing
equipment at the lowest application
product temperature was reasonable for
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self-contained equipment, but for
remote condensing equipment, the size
of the condensing unit would affect the
operating temperature range. Zero Zone
further inquired whether the test
procedure would regulate the size of
condensing units. (Zero Zone, No. 19 at
p. 207) Zero Zone stated that there
needs to be more specificity in the
testing of application temperature for
remote condensing equipment. Zero
Zone continued by asserting that
ASHRAE 72 requires that a pressure
regulator be used to set the evaporating
temperature to the correct value. This
means that the limit of evaporating
temperature is dependent on the size of
the test laboratory’s compressor rack.
Zero Zone suggested that, for
standardization purposes, the DOE test
procedure should require that the
saturated suction temperature be set to
5 °F colder than the temperature needed
to maintain the application temperature.
(Zero Zone, No. 16 at p. 2)
DOE has reviewed Zero Zone’s
comment and the pertinent sections of
ASHRAE Standard 72. DOE concedes
that, for remote condensing equipment
that does not have a thermostat or
another means to regulate temperature,
the size of the compressor rack could
impact the lowest achievable
application product temperature. In this
case, the saturated suction temperature
at the compressor rack (also referred to
as the Adjusted Dew Point Temperature
in AHRI 1200–2010) impacts the
amount of refrigerant that can flow
through the evaporator. Larger
compressor racks are able to achieve
lower saturated suction temperatures,
which will produce a lower operating
temperature in the case than a smaller
compressor. DOE acknowledges that the
method included in Zero Zone’s
comment would create a standardized
repeatable test for this type of
equipment. However, DOE believes that
the specification of a saturated suction
temperature to 5 °F lower than that
required to maintain the application
temperature is somewhat arbitrary and
not necessarily indicative of the lowest
operating temperature of the unit. This
specification also could inadvertently
restrict or burden manufacturers when
testing their equipment. DOE did not
receive comments from other
manufacturers on this topic. DOE also
notes that specification of a fixed
saturated suction temperature is only
required for remote condensing units
without thermostats or other means of
regulating temperatures that are rated at
the lowest application product
temperature. DOE is not currently aware
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of any equipment on the market that
would fit this description.
In the case of remote condensing
equipment with a thermostat, DOE
believes that the lowest application
product temperature is sufficiently
defined by the range of the thermostat
and that the suction temperature is
similarly limited by the thermostat.
However, for remote cases that do not
have a thermostat or other means for
controlling temperature at the case
level, DOE acknowledges that this
relationship between compressor rack
size and lowest application product
temperature does create some variability
in the lowest application product
temperature that can be achieved by a
given case. Thus, DOE is requiring that
the adjusted dew point temperature, as
defined in AHRI 1200–2010, be set to 5
°F colder than that temperature required
to maintain the manufacturer’s lowest
specified application temperature for
those pieces of remote condensing
commercial refrigeration equipment that
do not have a means for controlling
temperature at the case, such as a
thermostat, and cannot be tested at their
specified integrated average rating
temperatures.
5. Provisions Allowing Testing of
Equipment at NSF Test Temperatures
Commercial refrigeration equipment
that is marketed to hold perishable food
items is classified and certified by NSF/
ANSI–7, ‘‘Commercial Refrigerators and
Freezers’’ (hereafter referred to as NSF–
7), a food safety standard issued by
NSF.22 NSF–7 establishes two classes
for commercial display cases: Type I,
which is tested at ASHRAE Standard 72
standard ambient conditions (75 °F dry
bulb and 64 °F wet bulb temperature),
and Type II, which is tested at higher
ambient conditions (80 °F dry bulb and
68 °F wet bulb temperature). These two
test conditions are also reported in
terms of dry bulb temperature and
percentage relative humidity. Type I
corresponds to 75 °F and 55 percent
relative humidity, and Type II
corresponds to 80 °F and 60 percent
relative humidity. NSF–7 also requires
Type I and Type II equipment to be
tested such that the average temperature
of each test package containing an
individual temperature sensor does not
exceed 41 °F and no single temperature
sensor exceeds a reading of 43 °F at any
time during the test. NSF–7 does not
specify a required average temperature
for all test sensors or the measurement
22 NSF International. ‘‘NSF/ASNI 7—2009:
Commercial Refrigerators and Freezers.’’ Ann
Arbor, MI. https://www.nsf.org/business/
food_equipment/standards.asp.
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of energy consumption during the test.
On the other hand, DOE does require an
integrated average test temperature of 38
°F ± 2 °F. However, manufacturers have
reported that they test cases at lower
integrated average temperatures than
that specified by DOE to ensure the
NSF–7 requirements are met.
At the January 2011 NOPR public
meeting and in subsequent written
comments, interested parties
commented on the similarities and
differences between the DOE test
procedure and the NSF–7 test.
Commenters also noted the additional
burden associated with performing both
tests. Southern Store Fixtures
commented that if a unit designed to
operate at higher ambient conditions is
operated at a lower ambient
temperature, the case will not perform
as well because it will have an oversized
compressor and could have operational
issues with compressor cycling.
Southern Store Fixtures further
commented that the energy
consumption of a case can increase by
as much as 30 percent when changing
from a rating condition of 75 °F and 55
percent relative humidity to 80 °F and
60 percent relative humidity. (Southern
Store Fixtures, No. 19 at pp. 94–95)
True and Coca-Cola stated that a 5 °F
difference will not significantly affect
energy consumption and that, for those
few cases that would be significantly
affected, they could apply for a waiver.
(True, No. 19 at p. 122; Coca-Cola, No.
19 at p. 123) Southern Store Fixtures
countered that only in cases with solid
doors will the 5 °F temperature
difference be insignificant (Southern
Store Fixtures, No. 19 at p. 131), and
that the effects of a 5 °F increase in
temperature can be significant for open
cases or cases with single pane glass.
(Southern Store Fixtures, No. 19 at p.
97)
Hussmann stated that, although the
difference in energy use among selfcontained cases may not be significant,
Hussmann was concerned with the
additional burden of testing a case
twice. (Hussmann, No. 19 at p. 123)
Hussmann stated that all units must
pass the NSF–7 requirements in order to
be certified for food safety. The NSF–7
requirement differs from AHRI 1200 in
that the maximum average temperature
can never exceed 41 °F at any time.
Hussmann also stated that the integrated
average temperature for the NSF–7 test
(approximately 34 °F) is actually lower
than that required by the DOE test
procedure, and that the energy
consumption of a medium temperature
self-contained case is higher during
testing for NSF compliance than it is
during the DOE energy consumption
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test. Hussmann commented that, as it
stands now, equipment that consumes
more energy during the NSF–7 test than
is allowed by the DOE test procedure
would have to be re-tested at DOE
conditions, thereby imposing an
additional burden. Hussmann stated
that 85 percent of its self-contained
models require NSF testing, meaning
that hundreds of additional DOE tests
could be required. (Hussmann, No. 10 at
pp. 1–2) Hussmann recommended that
DOE allow for the use of a linear
polynomial curve-fit in the development
of a normalization equation from NSF to
DOE internal temperatures. This would
allow manufacturers test at NSF internal
conditions and then normalize to the
standard DOE conditions, which would
reduce the testing burden because
manufacturers already test to the NSF
standard. (Hussmann, No. 10 at p. 2)
California Codes and Standards and
NEEA both suggested that DOE allow
testing at both the 75 °F and 55 percent
relative humidity rating condition and
NSF Type II conditions, provided the
case, as tested, were to meet the
applicable energy conservation
standard. (California Codes and
Standards, No. 19 at p. 124; NEEA, No.
19 at p. 127) ACEEE stated its belief that
commercial refrigeration equipment can
be divided into two types of equipment:
that for which food safety is a true
concern, and that which cools and
displays product for the purposes of
presenting value to the consumer. The
former subset of equipment is rated in
accordance with NSF food safety
standards, while the latter is not.
Therefore, ACEEE suggested making a
distinction between the two in the DOE
test procedure, with the NSF–7 test
procedure being used for equipment for
which food safety is a true concern, and
the AHRI/ASHRAE method being used
for the remaining equipment. ACEEE
stated that it would endorse such a
method as long as the two subsets of
equipment were separated clearly, such
as via labeling. (ACEEE, No. 12 at pp.
2–3)
True stated that the current Federal
test procedure relies on ASHRAE
Standard 72, which specifies a rating
condition of 75 °F and 55 percent
relative humidity, and that this reflects
the way cases are currently tested. True
added that if the test temperatures were
to be changed, comparison with
historical data could be difficult. (True,
No. 19 at pp. 127–28) True also
acknowledged that self-contained cases
currently required to meet the EPACT
2005 standard must test at the DOE
rating condition of 75 °F and 55 percent
relative humidity and, optionally, at
NSF Type II conditions, so there is no
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incremental increase in burden. (True,
No. 19 at p. 129)
DOE acknowledges the burden on
manufacturers that have to certify
equipment with both the DOE test
procedure and the NSF–7 test
procedure. DOE also agrees with
interested parties that testing cases at an
ambient temperature of 80 °F, rather
than the currently specified 75 °F, will
not have a significant impact on energy
consumption for cases with doors. DOE
recognizes that, as Southern Store
Fixtures mentioned, the impact on open
cases may be greater than on closed
cases, but does not believe that
equipment will have operation or
performance issues if tested at a the
temperatures prescribed by the DOE test
procedure. DOE believes the energy
consumption of a case should scale with
ambient temperature and does not
believe these issues will prevent units
from being tested using the DOEprescribed test temperatures or
demonstrating compliance with DOE
energy conservation standards. DOE
researched the equipment available on
the market and requested specific data
regarding the existence of cases that
cannot meet the standard or the
characteristics of their operation. DOE
has found no evidence or firm data
supporting the creation of a separate
equipment class and standard for
equipment designed to operate at higher
ambient conditions. Thus, DOE will not
create specific new equipment classes
for equipment that is designed to
operate at internal or ambient
temperatures other than the test
conditions prescribed by DOE.
DOE does not believe development of
a scaling factor that would be
sufficiently representative of equipment
energy consumption and consistent
across an equipment class is justified
within the scope of this rulemaking. The
geometry and design of each case will
cause the magnitude of the impact of
variation in temperature to vary, making
development of any scaling factor
extremely burdensome. This is true for
both external and internal temperature
variations.
Continuing to require testing at
standard rating conditions, as
prescribed in the DOE test procedure,
without allowances for variation in
internal or external temperatures, will
not increase the burden for
manufacturers. However, it will also not
reduce the total burden of testing, which
could be accomplished through
coordination of test requirements with
other programs, such as NSF.
In response to the suggestion that
cases could optionally be tested at NSF–
7 conditions (ambient or internal) as
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long as the unit, as tested, complies
with the energy conservation standard,
DOE believes that this will effectively
reduce the burden on manufacturers
while ensuring that all cases meet or
exceed the DOE energy conservation
standard, provided the NSF–7 rating
temperatures and ambient conditions
represent a more stringent test. In most
cases, using the NSF internal
temperature requirements or Type II
external ambient conditions represents a
more conservative test in that
equipment will have to be more efficient
to operate at NSF internal temperatures
or ambient conditions and still comply
with DOE energy conservation
standards. For example, as Hussmann
notes, manufacturers often perform the
NSF–7 test at a lower integrated average
temperature than that required by the
DOE test procedure to ensure their cases
will comply with NSF’s food safety
requirements. However, DOE notes that
this method is optional, and
manufacturers are technically allowed
to test cases at up to 41 °F integrated
average temperature under the NSF–7
test, provided the air is perfectly mixed
and the spatial temperature variation
within the case is very well controlled.
In an effort to reduce burden for
manufacturers and allow testing for the
purposes of NSF certification and DOE
compliance to occur in the same test,
DOE is adopting in this final rule
provisions that allow manufacturers to
optionally use NSF internal or ambient
conditions to test equipment in a given
equipment class, provided the NSF
conditions are more stringent than the
prescribed DOE rating temperatures and
conditions for that equipment class. To
clarify, manufacturers may test at the
prescribed 75 °F and 55 percent relative
humidity ambient rating condition, or
they may optionally test at the NSF
Type II conditions of 80 °F and 60
percent relative humidity. In either case,
the equipment would be required to
show compliance with the relevant
energy conservation standard for that
equipment class. Additionally,
manufacturers are allowed to test
equipment at integrated average
temperatures that satisfy the DOEspecified rating temperatures or are
lower than the DOE-specified rating
temperatures.
DOE acknowledges that allowing
equipment to be tested at NSF–7
conditions in the DOE test procedure
would make comparison of equipment
within the same equipment class
difficult and confusing, given that there
could be cases tested at four different
conditions in the same class. However,
DOE is requiring that equipment rated at
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NSF–7 rating temperatures maintain
documentation of the internal and
ambient temperatures as part of the test
data underlying the certification, so that
informed comparisons can be made.
As True acknowledged,
manufacturers that produce equipment
covered by EPACT 2005 standards are
currently testing to both the DOE and
NSF–7 test procedures. Thus,
maintaining the proposed equipment
classes and test temperatures for
equipment that must also be tested
using the NSF–7 test for food safety
certification does not introduce any
incremental burden on manufacturers.
Instead, the provision to demonstrate
compliance by testing the equipment at
NSF–7 test conditions is only meant to
provide an opportunity to the
manufacturers to reduce the number of
tests for equipment that can comply
with DOE standards even when tested at
the more stringent NSF–7 test
conditions. However, this provision will
not be advantageous to equipment that
may be unable to comply by DOE
standards when tested at the more
stringent NSF–7 test conditions due to
a large difference in energy
consumption at the two different test
conditions.
In summary, DOE is incorporating
language in the test procedure final rule
that will allow manufacturers to
optionally test at NSF–7 conditions that
are more stringent than the DOE test
conditions to reduce the repetitive test
burden of testing at both DOE and NSF–
7 conditions, provided the case still
meets DOE’s energy conservation
standards.
B. Other Notice of Proposed Rulemaking
Comments and DOE Responses
At the January 2011 NOPR public
meeting and in the ensuing comment
period, DOE received comments from
interested parties regarding several
issues that pertain to the CRE test
procedure and energy conservation
standard rulemakings, but not to
specific provisions or amendments.
DOE received comments on the scope of
covered equipment; the testing of partload technologies not currently
referenced explicitly in the test
procedure; the effective date of the test
procedure rulemaking; preemption of
State regulations; the burden of testing;
the association of this final rule with
DOE’s certification, compliance, and
enforcement regulations; alternative
refrigerants; and secondary coolant
systems.
1. Equipment Scope
The test procedure for commercial
refrigeration equipment prescribes
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methods for testing all commercial
refrigeration equipment, as defined in
10 CFR 431.62. The definition of
commercial refrigerator, freezer, and
refrigerator-freezer includes all
refrigeration equipment that:
(1) Is not a consumer product (as defined
in § 430.2 of part 430);
(2) Is not designed and marketed
exclusively for medical, scientific, or
research purposes;
(3) Operates at a chilled, frozen,
combination chilled and frozen, or variable
temperature;
(4) Displays or stores merchandise and
other perishable materials horizontally, semivertically, or vertically;
(5) Has transparent or solid doors, sliding
or hinged doors, a combination of hinged,
sliding, transparent, or solid doors, or no
doors;
(6) Is designed for pull-down temperature
applications or holding temperature
applications; and
(7) Is connected to a self-contained
condensing unit or to a remote condensing
unit.
10 CFR 431.62
a. Remote Condensing Racks
California Codes and Standards
commented that DOE should consider
regulating remote condensing racks and
that significant energy savings were
possible in that type of equipment.
(California Codes and Standards, No. 19
at p. 12) California Codes and Standards
further asked DOE to review the pros
and cons of establishing a separate
rulemaking on remote condensers and
to consider which parts of remote
condensing equipment should be
covered by energy conservation
standards. These standards, the
comment stated, would be well suited to
establishing a baseline efficiency for the
remote condensing unit, independent of
the type of equipment it serves.
(California Codes and Standards, No. 13
at pp. 1–2) ACEEE stated that DOE
should recognize the distinction
between dedicated remote condensing
units and rack systems that serve
multiple pieces of equipment. ACEEE
suggested that DOE should develop an
appropriate method for rating dedicated
remote compressors across various
capacities and temperature needs,
potentially using standard loads for the
testing of remote rack systems. (ACEEE,
No. 12 at p. 5)
During the 2009 CRE energy
conservation standards rulemaking,
DOE made the determination not to
cover remote condensers within the
scope of the January 2009 final rule, and
to limit the standards analyses to
refrigerated cases only and not the
remote condensers. In the advance
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notice of proposed rulemaking, DOE
stated:
In its Framework Document, DOE pointed
out that EPCA defines a ‘‘self-contained
condensing unit,’’ in part, as an assembly of
refrigerating components ‘‘that is an integral
part of the refrigerated equipment * * *’’ (42
U.S.C. 6311(9)(F), added by EPACT 2005,
section 136(a)(3)) EPCA also defines a
‘‘remote condensing unit,’’ in part, as an
assembly of refrigerating components ‘‘that is
remotely located from the refrigerated
equipment * * *.’’ (42 U.S.C. 6311(9)(E),
added by EPACT 2005, section 136(a)(3))
DOE also stated in the Framework Document
that this difference in the definitions may
mean that, under EPCA, remote condensing
units are not a part of the refrigerated
equipment and that energy conservation
standards for remote condensing commercial
refrigerators, commercial freezers, and
commercial refrigerator-freezers would apply
only to the refrigerated equipment (i.e.,
storage cabinets and display cases), but not
to the remote condensing units.
72 FR 41170–71 (July 26, 2007).
Several interested parties commented
at that time that coverage of remote
condensers would be difficult due to the
wide variety of this type of equipment.
(Docket No. EERE–2006–STD–0126,
Zero Zone, Public Meeting Transcript,
No. 3.4 at p. 48; 23 ARI, No. 7, at p. 3)
Additionally, energy efficiency
advocates and utilities expressed the
opinion that these units should be
covered, but not necessarily within the
scope of that rulemaking. (Docket No.
EERE–2006–STD–0126, Joint
Comment,24 No. 9 at p. 5) DOE decided
to not cover remote condensers in the
January 2009 final rule. DOE further
stated that it would address later
whether it has the authority to regulate
this equipment, and if so, would
examine then whether standards for
remote condensers are warranted and
feasible. 74 FR 1105 (Jan. 9, 2009).
DOE believes that nothing has
changed to affect this stance. DOE
continues to believe that the condenser
rack to which a piece of remote
condensing commercial refrigeration
equipment is attached to, is a separate
piece of equipment that may serve other
equipment types (e.g., walk-in coolers
and freezers). As such, DOE is not
23 A notation in the form ‘‘Docket No. EE–2006–
STD–0126, Zero Zone, Public Meeting Transcript,
No. 3.4 at p. 48’’ identifies an oral comment that
DOE received during the May 16, 2006 Framework
public meeting and which was recorded on page 48
of the public meeting transcript (document number
3.4) in the docket for the 2009 CRE energy
conservation standards rulemaking (Docket No.
EERE–2006–STD–0126).
24 Joint Comment refers to a written comment
submitted by the Alliance to Save Energy, ACEEE,
the Appliance Standards Awareness Project, NRDC,
Northeast Energy Efficiency Partnerships, and
Northwest Power and Conservation Council in
Docket No. EERE–2006–STD–0126.
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considering remote condensing racks in
the current associated energy
conservation standards rulemaking
(Docket No. EERE–2010–BT–STD–
0003). DOE is not introducing test
procedures for remote condensers in
this rulemaking, and maintains that
DOE has no obligation to do so. DOE, if
it proposed to regulate or develop a test
procedure for remote condensing racks,
would do so in a separate rulemaking.
b. Testing of Part-Load Technologies at
Variable Refrigeration Load
Technologies that operate as a
function of variable ambient conditions
can reduce annual energy consumption
of commercial refrigeration equipment
by adapting to changes in refrigeration
load that result from changes in ambient
conditions. These variable load, or partload, technologies include higher
efficiency expansion valves, condenser
fan motor controllers, and anti-sweat
heater controllers. In the November
2010 NOPR, DOE suggested that,
although ASHRAE Standard 72–2005 is
a steady-state test, some variation in
refrigeration load is experienced in that
test due to the door opening and night
curtain provisions. This variation in
refrigeration load inherent in the test
procedure means the effects of variable
load, or part-load, features are already
captured to some degree in the proposed
test procedure for commercial
refrigeration equipment. DOE further
argued that additional independent or
explicit part-load testing would result in
increased cost and burden for
manufacturers of covered equipment.
DOE estimated that part-load testing at
additional rating conditions could more
than double the cost and burden of
testing for all commercial refrigeration
equipment. In the November 2010
NOPR, DOE stated that explicit testing
at multiple sets of conditions was not
justified because of this increased
burden, and proposed that the test
procedure continue to reference only
one standard ambient condition, relying
on the transient effects inherent in the
proposed test procedure to capture partload performance. 75 FR 71601 (Nov.
24, 2010).
At the January 2011 NOPR public
meeting and in subsequent written
comments, NEEA and California Codes
and Standards agreed with DOE that the
ASHRAE Standard 72 test method does
include variation in the refrigeration
load, which would realize the benefits
of part-load technologies, such as
floating head pressure controls, liquid
suction heat exchangers, and improved
thermal expansion loads in equipment
with doors. These interested parties
asked DOE to evaluate part-load
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technologies in the energy conservation
standards rulemaking. (NEEA, No. 8 at
p. 2; California Codes and Standards,
No. 19 at p. 13)
AHRI commented that additional,
specific requirements for testing of partload technologies will add an additional
burden on manufacturers, and agreed
with DOE that ASHRAE 72 already
accounts to some degree for the effects
of part-load technologies. As a result,
AHRI recommended against new testing
requirements for these technologies.
(AHRI, No. 15 at p. 2) NEEA agreed that
short-term part-load impacts are limited,
and that longer-term variations, such as
those induced by changes in ambient
conditions, would be difficult to capture
without imposing a significant
additional burden. (NEEA, No. 8 at p. 2)
Conversely, NRDC commented that it
believed that DOE had not provided
sufficient data to show that testing at
varying loads would impose an undue
burden on manufacturers. NRDC further
stated that manufacturers that use
advanced control strategies and
variable-load technologies need to have
such features properly credited.
According to NRDC, to not adequately
credit such features would conflict with
section 342 of EPCA, which requires
DOE to adopt test procedures that reflect
representative energy use. (NRDC, No.
14 at pp. 3–4)
ACEEE stated its belief that gains due
to technologies such as adaptive
controls and modulating components
must be captured in a test procedure to
fairly express to consumers the better
value that may be presented by
equipment that performs more
efficiently in the field. In ACEEE’s
opinion, to not capture the effects of
these features would result in a loss of
competitiveness by domestic
manufacturers. (ACEEE, No. 12 at p. 2)
ACEEE added that it does not believe
that the current test methods account for
modulating components and their
benefits. (ACEEE, No. 12 at p. 6)
DOE recognizes the desire to better
characterize the performance of these
devices. However, DOE believes that the
refrigerant load changes inherent in the
amended test procedure are
representative of average use and that
the test procedure established in this
final rule meets the requirements for a
test procedure established by EPCA
section 342 (42 U.S.C. 6314(a)(2)). Given
that, DOE believes the establishment of
new, independent test requirements for
part-load conditions is not necessary
and would impose undue burden on
manufacturers. As stated previously,
testing of part-load technologies would
more than double the burden on
manufacturers to test equipment. DOE
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maintains that part-load technologies
that respond to changes in refrigeration
load will be partially captured in the
DOE test procedure due to door
openings, night-curtain deployment,
compressor cycling, and minor
fluctuations in the thermodynamic state
of the case during the test. In any event,
manufacturers may implement any partload technologies as they see fit. DOE
believes the efficiency gains achieved by
part-load technologies in the current test
procedure are sufficient, and that
further independent testing is not
justified.
2. Effective Date
EPCA requires that, 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) and 6314(a)(6)(D)) If DOE
determines that the amended test
procedure would alter the measured
efficiency of a covered product, DOE
must amend the applicable energy
conservation standard accordingly. (42
U.S.C. 6293(e)(2) and 6314(a)(6)(D))
Several of the provisions in this test
procedure final rule will change the
measured energy use of some
commercial refrigeration equipment
covered under the scope of current
standards. As such, DOE is in the
process of amending the current energy
conservation standards for commercial
refrigeration equipment in a concurrent
rulemaking (Docket No. EERE–2010–
BT–STD–0003).
In the November 2010 NOPR, DOE
proposed to require that the use of the
amended test procedure be consistent
with the compliance date of any revised
energy conservation standards. 75 FR
71599 (Nov. 24, 2010). DOE is adding
language to the final test procedure
amendments clarifying that the
amendments shall not be used at the
time of publication to determine
compliance with the current energy
conservation standards. Instead,
manufacturers will be required to use
the amended test procedure to
demonstrate compliance with DOE’s
energy conservation standards on the
compliance date of any final rule
establishing amended energy
conservation standards for commercial
refrigeration equipment. Until this date,
manufacturers must continue to use the
existing DOE test procedure, as set forth
at 10 CFR 431.64, to demonstrate
compliance with existing energy
conservation standards.
However, EPCA also states that,
effective 360 days after any amended
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test procedure final rule is prescribed,
any representations of the ‘‘maximum
daily energy consumption’’ of covered
equipment, for example in labeling or
advertising, must be based on results
generated using the amended test
procedure. (42 U.S.C. 6314(d)) In the
November 2010 NOPR, DOE proposed
that, as of 360 days after publication of
any test procedure final rule,
representations of energy consumption
of any covered equipment would need
to be based on results generated using
the amended test procedure. 75 FR
71599 (Nov. 24, 2010). This would
result in possible dual testing
requirements for some cases between
the period 360 days after publication of
the amended test procedure final rule
and the effective date of any amended
standards. However, because many of
the test procedure amendments are
optional, this is not expected to affect
many units. For example, if a case is
sold with and without occupancy
sensors, the case would be tested in
accordance with the current DOE test
procedure, without amendments, to
show compliance with DOE energy
conservation standards. Because this
case is not required to be tested with
occupancy sensors in the amended test
procedure, the test using the current
DOE test procedure is also in
accordance with the amended test
procedure and the established daily
energy consumption values may be
reported and publicized.
Representations of the ‘‘maximum daily
energy consumption’’ of cases
accounting for the energy savings of
lighting occupancy sensors, for
example, could be made only after
testing the case in accordance with the
lighting occupancy sensor provisions in
the amended test procedure. However,
the amended test procedure could not
be used to show compliance with DOE
energy conservation standards until the
effective date of any amended energy
conservation standards. This is also true
for covered equipment sold with night
curtains. The provision for testing cases
at the lowest application product
temperature will not affect the reported
energy of any covered product because
manufacturers of cases that cannot be
tested at the prescribed rating
temperature are currently advised to
request a waiver, since these cases
cannot be tested under the existing test
procedure.
ACEEE, NEEA, and Earthjustice all
expressed the view that the test
procedure effective date should be
equivalent to that of any amended
energy conservation standards
published in the concurrent energy
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conservation standards rulemaking
(Docket No. EERE–2010–BT–STD–
0003). (ACEEE, No. 12 at p. 3; NEEA,
No. 31 at p. 2; Earthjustice, No. 11 at p.
2) Earthjustice also stated that DOE
must clarify that manufacturers may not
use night curtains and/or occupancy
sensors to comply with minimum
efficiency standards prior to the
compliance date of amended standards
that account for those features.
(Earthjustice, No. 11 at p. 2) Earthjustice
further commented that EPCA requires
that, if DOE amends test procedures, it
must also determine to what extent the
proposed test procedure would alter
measured energy use as determined
under the existing test procedure. If the
test procedure is found to alter
measured energy use, DOE must amend
the energy conservation standard to
account for this, taking into
consideration the performance of
existing minimally compliant
equipment under the amended test
procedure. (Earthjustice, No. 11 at
pp. 2–3)
DOE understands that, if the amended
test procedure will affect the measured
energy consumption of a covered piece
of equipment, DOE must amend energy
conservation standards accordingly.
DOE is pursuing amended standards
based on the test procedure
amendments being adopted in this final
rule. As such, DOE is requiring that the
use of any amended test procedure not
be required until the compliance date of
any amended standards. As these
amended test procedures will only be
used with standards that have been set
based on those amendments, DOE
believes there is no risk of backsliding,
but is conscious of and accounting for
this issue in the associated energy
conservation standards rulemaking
(Docket No. EERE–2010–BT–STD–
0003).
With respect to representations of the
maximum daily energy consumption of
covered equipment, it is DOE’s
understanding that 360 days following
publication of the test procedure final
rule, representations of energy
consumption must be made using the
amended test procedure. However, this
could create a situation where
manufacturers may have to test
equipment using two different test
procedures beginning 360 days after
publication of the test procedure final
rule (anticipated October 2012) and
until 3 years after the publication of the
CRE energy conservation standards final
rule (anticipated January 2016). DOE
believes this potentially would be
confusing and burdensome for
manufacturers. To simplify testing
activities, DOE is specifying in this final
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10309
rule that use of the amended test
procedure for compliance and
representations of energy use will be
required on the compliance date of any
amended energy conservation standards
resulting from the ongoing rulemaking
(Docket No. EERE–2010–BT–STD–
0003). This stance is similar to that
proposed for walk-in coolers and
freezers with respect to the testing of
insulation values and is the most
practical to implement. 76 FR 48745
(Aug. 9, 2011). DOE is including a
clarifying statement in the test
procedure rule language regarding when
the amended test procedure must be
used for purposes of compliance and
labeling or other representations of
energy consumption.
3. Preemption
At the January 2011 NOPR public
meeting, California Codes and
Standards asked DOE to consider which
features of commercial refrigeration
equipment should be addressed by DOE,
as opposed to others that could be left
uncovered and regulated by State or
local building efficiency standards and
codes. Features that could be more
appropriately covered by State or local
building regulations, according to the
comment, could include controls not
integral to a single unit (centralized,
storewide controls); liquid-suction heat
exchangers serving an entire lineup of
cases; and application-specific devices,
such as night curtains, which could be
very valuable in some applications but
inapplicable in others (such as 24-hour
stores). California Codes and Standards
requested that DOE clarify which of
these types of features would be
‘‘covered’’ or ‘‘uncovered’’ under the
current and forthcoming CRE
regulations (California Codes and
Standards, No. 13 at pp. 15–16) and
requested clarification on the ability of
State or local building standards to
specify additional prescriptive
requirements for equipment based on
building occupancy. (California Codes
and Standards, No. 19 at p. 75)
Federal minimum efficiency
standards for commercial refrigeration
equipment supersede State or local
efficiency standards (42 U.S.C. 6297,
6316(e)(2)), unless such standards are
contained in a State or local building
code for new construction that meets
the requirements of 42 U.S.C. 6297(f)(3),
including the requirement that one
pathway for compliance under the State
building code is through the use of
appliances that meet Federal standards.
4. Burden of Testing
DOE understands that amending test
procedures or including additional
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provisions in those test procedures
could increase the burden on
manufacturers to quantify the
performance of their equipment. EPCA
requires that the test procedures
promulgated by DOE be reasonably
designed to produce test results that
reflect energy efficiency, energy use,
and estimated operating costs of the
covered equipment during a
representative average use cycle. EPCA
also requires that the test procedure not
be unduly burdensome to conduct. (42
U.S.C. 6314(a)(2))
DOE has analyzed the expected
incremental cost of the test procedure
amendments adopted in this final rule
and its impact on manufacturers. The
amendments to the DOE test procedure
for commercial refrigeration equipment
consist of updating the referenced
industry test procedures to the most
current versions; testing requirements
for units sold with night curtains and
lighting occupancy sensors or controls
installed; and provisions for testing
units at temperatures other than the
specified rating temperatures of 38 °F,
0 °F, and ¥15 °F.
All commercial refrigeration
equipment for which standards were set
in EPACT 2005 are currently required to
be tested using the DOE test procedure
to show compliance with the EPACT
2005 standards. (42 U.S.C. 6313(c)(2)–
(3); 10 CFR 431.66(b)) Manufacturers of
equipment for which standards were set
in the January 2009 final rule are
similarly required to test units using the
DOE test procedure to show compliance
with the 2009 standards levels as of
January 1, 2012. 74 FR 1093 (Jan. 9,
2009); 10 CFR 431.66(d)). The current
DOE test procedure references AHRI
Standard 1200–2006 and AHAM HRF–
1–2004. This test procedure consists of
one 24-hour test at standard rating
conditions to determine daily energy
consumption.
The updated versions of AHRI
Standard 1200–2010 and AHAM HRF–
1–2008 do not vary substantially from
the previously referenced versions.
Aligning the DOE test procedure with
the most recent industry test procedures
currently in use—AHRI standard 1200–
2010 and AHAM HRF–1–2008—
simplifies testing requirements and
reduces the burden of testing for both
small and large manufacturers.
For equipment that is sold with night
curtains installed, the current test
procedure requires one 24-hour test that
does not account for the energy savings
associated with night curtain
deployment. The amended test
procedure adopted in this final rule
incorporates provisions to account for
the energy savings associated with night
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curtain deployment. The night curtain
test procedure requires the night curtain
to be pulled down for 6 hours during
the test. DOE believes the incremental
burden of pulling down the night
curtain at a certain time and retracting
it 6 hours later requires less than half a
minute each and is not significant
relative to the burden of conducting the
test. Thus, DOE has determined that the
testing costs for CRE models with added
night curtains are approximately the
same as those for models without night
curtains and concludes there are no
significant incremental costs associated
with testing models with night curtains.
For units sold with lighting
occupancy sensors and scheduled
controls installed, no additional testing
or measurements will be required.
Manufacturers will be permitted to use
a calculation method to determine the
energy savings due to lighting
occupancy sensors and scheduled
controls. DOE believes that these
additional calculations will only require
approximately 30 minutes of additional
time. These calculations are
straightforward and similar to the
calculations for alternate component
energy consumption, which are part of
the existing test procedure. When
compared to the burden associated with
the physical testing segment of the
procedure, the additional calculations
required by the lighting occupancy
sensor and scheduled control
requirements will not significantly
increase the total burden of the test.
Thus, DOE believes that the additional
calculations for lighting occupancy
sensors and controls will not
significantly increase the burden of test
for manufacturers of covered
equipment. Also, DOE notes that
manufacturers may optionally
incorporate the testing of lighting
occupancy sensors and controls into the
physical test. In this case, manufacturers
would be required to turn off and turn
on the lights once each during the 24hour test. DOE believes these additional
steps would involve negligible effort in
comparison to the burden associated
with conducting the complete test and,
thus, the incremental increase in burden
would be negligible.
For equipment that cannot be tested at
the specified integrated average rating
temperature for its respective equipment
class, manufacturers are currently
required to test the unit using AHRI
Standard 1200 at the specified test
temperature. Under the adopted
revisions, these manufacturers will be
allowed to test units that cannot meet
the specified test temperature for their
equipment class at the lowest
application product temperature, with
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the only difference being the integrated
average temperature. Because the same
test will be performed for cases that
cannot be tested at the prescribed rating
temperature and must be tested at
lowest application product temperature,
as compared to cases that are tested at
DOE’s prescribed rating temperature,
DOE believes that this method will not
increase the burden of test for those
manufacturers and is likely to lead to
more representative energy
consumption values. DOE notes that the
AHRI Standard 1200–2010 test is often
already performed by manufacturers for
participation in voluntary programs,
independent collection of energy
consumption information, or other
reasons.
In this test procedure final rule, DOE
is also allowing manufacturers to test at
the internal temperatures and/or
ambient conditions required for NSF–7
testing. This could dramatically reduce
the burden for manufacturers that
produce equipment for food storage, as
under the amended test procedure these
two 24-hour tests can be combined. The
NSF–7 test is similar in length and
burden to the DOE test, but is performed
at slightly different internal and external
temperatures. Certification of equipment
tested at NSF–7 test temperatures for the
purposes of compliance with DOE
energy conservation standards will only
be possible for equipment that is able to
meet the DOE energy conservation
standard at the more stringent NSF–7
test conditions. However, DOE believes
this provision can still potentially
decrease the burden of test for some
manufacturers.
The amendments to the test procedure
for commercial refrigeration equipment
were chosen to help minimize the
impact of additional testing while
updating the DOE test procedure to
include the most current versions of
industry standards, capture new energy
efficiency technologies, and provide
more accurate test methods for
equipment that cannot be tested at the
currently prescribed integrated average
rating temperature. Because none of
these amendments significantly increase
the burden of a test, DOE believes that
the test procedure finalized here will
not be unduly burdensome to conduct.
For further discussion of the
economic impact of additional testing
on small CRE manufacturers, the
entities that will be the most impacted
by additional testing requirements,
please see section IV.B of this final rule.
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a. Determination of Basic Models in the
Context of Night Curtain and Lighting
Occupancy Sensor and Scheduled
Control Test Provisions
In the November 2010 NOPR, DOE
proposed that if a unit is tested and
demonstrates compliance with the
relevant energy conservation standard
without night curtains or lighting
occupancy sensors installed, that unit
can also be sold with night curtains or
lighting occupancy sensors installed
without additional testing. DOE
proposed this same provision for
lighting occupancy sensors and controls
in order to minimize the testing burden
on manufacturers and because DOE
believed that the addition of night
curtains and lighting occupancy sensors
and controls would only decrease
energy consumption. If, however, a
piece of equipment does not meet DOE’s
energy conservation standards without
night curtains (or lighting controls)
installed, DOE proposed to require the
unit to be tested with night curtains (or
lighting controls) installed. In this
instance, assuming the energy
conservation standard is met, the
equipment would also be required to be
sold with night curtains (or lighting
controls) installed. 75 FR 71600 (Nov.
24, 2010). However, if a manufacturer
wishes to publicize the certified ratings
of a unit with night curtains (or lighting
controls) installed, that energy
consumption value must be determined
using the DOE test procedure and
applicable sampling plans. (42 U.S.C.
6314(d)) In addition, the energy
consumption of this basic model must
be certified. 76 FR 12422, 12453 (March
7, 2011).
Coca-Cola commented that a
manufacturer could sell a case with a
lighting controller installed without
testing the case to prove the energy
savings as long as it made no claims
regarding energy savings. Coca-Cola
further commented that performing the
additional tests could be burdensome
for the manufacturer and should remain
optional. (Coca-Cola, No. 19 at p. 243)
However, California Codes and
Standards commented that the
additional burden to calculate, or test,
with and without occupancy sensors
seemed minimal and that perhaps it
should be required. (California Codes
and Standards, No. 19 at p. 250) NRDC
encouraged DOE to require
manufacturers of open cases with night
curtains to test them with the curtains
deployed for 6 hours as proposed, and
to require labeling of equipment
accordingly to explain the relevant
efficiency features to potential buyers.
(NRDC, No. 14 at p. 2) Similarly, NEEA
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disagreed with DOE’s proposal to allow
night curtains to be used to establish
compliance in units that are
noncompliant without night curtains.
(NEEA, No. 8 at p. 4)
Coca-Cola agreed with DOE’s proposal
to allow manufacturers the option of
testing with night curtains. (Coca-Cola,
No. 19 at p. 243) This provision would
require that cases be tested with night
curtains if (1) the case without night
curtains does not meet the energy
conservation standard; or (2) the
manufacturer wishes to publicize the
energy consumption of the case with
night curtains installed. In response to
California Codes and Standards and
NRDC’s comments regarding the
requirement of units sold with night
curtains to be tested with night curtains,
DOE has adopted the provision to allow
cases that meet DOE’s energy
conservation standard without night
curtains to be sold with and without
night curtains to minimize burden on
manufacturers.
Furthermore, implementation of night
curtains will only improve energy
efficiency of the equipment. This is
consistent with the provisions for
grouping into basic model families
established in the certification,
compliance, and enforcement (CCE)
final rule. (CCE final rule; 76 FR 12422,
12423 (March 7, 2011)). These
provisions allow manufacturers to group
individual models with essentially
identical, but not exactly the same,
energy performance characteristics into
a basic model to reduce testing burden.
Under DOE’s certification requirements,
all the individual models within a basic
model identified in a certification report
as being the same basic model must
have the same certified efficiency rating
and use the same test data underlying
the certified rating. The CCE final rule
also establishes that the efficiency rating
of a basic model must be based on the
least efficient or most energy consuming
individual model, or, put another way,
all individual models within a basic
model must be at least as good as the
certified rating. 76 FR 12428–29 (March
7, 2011). Because night curtains would
only serve to decrease energy
consumption or increase energy
efficiency of commercial refrigeration
equipment, DOE believes the provisions
for optionally testing cases with night
curtains if the case without night
curtains meets the energy conservation
standard for its equipment class ensures
that all equipment sold meets DOE’s
energy conservation standards and
minimizes burden on manufacturers.
This same argument applies to the
testing provisions for cases with lighting
occupancy sensor and/or scheduled
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10311
lighting controls installed. DOE notes
that manufacturers are free to test a case
both with and without night curtains (or
lighting occupancy sensors and/or
lighting controls) to establish separate
efficiency ratings and must do so if they
wish to make representations of both
values.
Regarding NEEA’s comment
criticizing the fact that testing of cases
with night curtains could be used to
certify otherwise noncompliant
equipment, DOE sets performance
standards, but cannot control or restrict
what design options or technologies a
manufacturer chooses to employ to meet
a certain standard level. Thus, like any
other design option, manufacturers may
employ night curtains as a means to
increase efficiency of a case to meet
DOE’s energy conservation standards.
b. Estimates of Burden
In the initial regulatory flexibility
analysis (IRFA), presented in the
November 2010 NOPR, DOE quantified
the incremental burden on small
manufacturers and certified that this
rulemaking, as proposed, would not
have a significant impact on a
substantial number of small entities. 75
FR 71596, 71606–08 (Nov. 24, 2010). In
the IRFA, DOE presented several
estimates of the cost of testing and the
number of small U.S. commercial
refrigeration equipment manufacturers.
DOE estimated testing costs to be
approximately $5,000 per unit to
conduct the baseline test, as outlined in
AHRI 1200–2010. 75 FR 71607 (Nov. 24,
2010). In response to these estimates,
Southern Store Fixtures, Traulsen, and
Hussmann all commented that the cost
of testing is actually much greater than
$5,000. (Southern Store Fixtures, No. 19
at p. 237; Traulsen, No. 19 at p. 238;
Hussmann, No. 19 at p. 238) Traulsen
stated that an estimate for total cost of
testing a unit, including shipping,
product costs, etc., would be $15,000.
(Traulsen, No. 9 at p. 8) NEEA agreed
with other interested parties that stated
that DOE’s estimate of $5,000 for testing
a unit was likely too low. However,
NEEA also stated that, based on its own
experience, the cost of additional testing
of a model is not nearly double the cost
of the first test, since the unit is only
shipped and set up once. Thus,
according to NEEA, additional tests
would only slightly add to the burden
of testing. (NEEA, No. 8 at p. 7) NEEA
stated that it did not believe DOE’s
proposal to be overly burdensome, as in
every instance only one 24-hour test
should be required for a given piece of
equipment. (NEEA, No. 8 at p. 7)
Traulsen stated that it believes DOE’s
estimate of 22 small businesses in the
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
CRE manufacturing sector to be too low,
and that it believes most or even all CRE
manufacturers employ fewer than 750
employees if subsidiaries of larger
companies are considered as
independent business units. Traulsen
submitted a list of 39 brands or
manufacturers of commercial
refrigeration equipment. (Traulsen, No.
9 at pp. 4–5)
Southern Store Fixtures commented
that the proposed test procedure would
impact its operation. (Southern Store
Fixtures, No. 19 at p. 253) Traulsen
stated that equipment sampling
provisions and the increasing scope of
standards are causing testing costs to
increase significantly and, according to
Traulsen, the company’s marginal costs
incurred as a result will be
approximately $250,000 per year.
(Traulsen, No. 9 at pp. 1–2) Zero Zone
commented that applying additional
tests is only easy if it is known that
these tests must be performed when the
unit is originally tested. Re-testing of
units is much more burdensome than
adding additional tests to a unit being
tested, as re-testing requires that the test
setup be re-installed and calibrated.
Zero Zone also commented that, while
the test procedure changes will not have
a significant impact on a substantial
number of small entities, the addition of
DOE regulations to existing regulations
will create a barrier to entry into the
market for small start-up companies.
(Zero Zone, No. 16 at pp. 1–2)
DOE has attempted to minimize the
burden on manufacturers by keeping all
test procedure amendments confined to
the existing single 24-hour test. Thus,
the test procedure amendments should
not significantly increase the burden of
testing a piece of equipment covered
under the rule.
DOE appreciates the information
related to cost of testing and the number
of small businesses covered by this rule.
DOE has considered these new numbers
in revising the regulatory flexibility
analysis. However, DOE notes that the
costs cited by manufacturers represent
the cost to conduct the AHRI 1200 test,
which is required by both the existing
test procedure and the new amended
test procedure. Thus, the $15,000 test
burden is not an incremental cost
associated with this test procedure final
rule. The incremental cost to test a piece
of commercial refrigeration equipment
covered under this rulemaking will not
increase significantly because the
amendments in this final rule do not
significantly impact the time, labor, or
materials required to conduct a test.
Because the testing burden will not
increase significantly as a result of this
rule, DOE believes the incremental
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impact on small businesses will be
small. DOE’s revised final regulatory
flexibility analysis can be found in
section IV.
c. Coordination with ENERGY STAR
Traulsen expressed concern that
increased requirements for third-party
testing and compliance with DOE and
U.S. Environmental Protection Agency
(EPA) programs are escalating the
burden on manufacturers. (Traulsen,
No. 9 at pp. 1–2) Traulsen also
commented that the most significant
improvement DOE could make in terms
of reducing burden for manufacturers
would be to align DOE and ENERGY
STAR testing and reporting
requirements. (Traulsen, No. 5 at p. 254)
Traulsen and True commented that
ENERGY STAR is currently requiring
equipment to be tested ‘‘out of the box,’’
including testing at the product
temperature at which the unit is
shipped. (Traulsen, No. 19 at p. 195;
True, No. 19 at p. 198) Traulsen
explained how this requirement has
created issues because it ships its cases
at an internal temperature set point of
34 °F for marketing reasons, which may
create problems when the cases are
tested at that temperature. Traulsen
asked if DOE was also going to be
requiring the testing of cases ‘‘out of the
box’’ without adjusting the integrated
average temperature set point.
(Traulsen, No. 19 at p. 195) NEEA
commented it had been involved with
ENERGY STAR since its inception and
that it is not possible to test units out
of the box, and that ‘‘out of the box’’
simply means that the unit is not
specially fabricated or adjusted. (NEEA,
No. 19 at p. 198) Traulsen stated that
DOE must ensure that the test procedure
allows for adjustment of the equipment
to the test set points, as ‘‘out of the box’’
set points may not be 38 °F. Traulsen
further stated that this would differ from
EPA testing, where units must be tested
as is, out of the box. (Traulsen, No. 9 at
p. 7)
DOE attempts, to the extent possible,
to minimize duplicative reporting or
testing requirements. Further, this final
rule does not require ‘‘out of the box’’
testing as interpreted by Traulsen. All
equipment tested for the purposes of
compliance with DOE energy
conservation standards must be tested
using the DOE test procedure. DOE is
working with EPA to ensure that the test
procedures for commercial refrigeration
equipment for the regulatory program
and the ENERGY STAR program are the
same.
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5. Association With Compliance,
Certification, and Enforcement
Regulations
Interested parties inquired as to how
the provision allowing equipment that
complies with the energy conservation
standard to be sold with and without
night curtains (or lighting controls)
without being retested relates to the
concurrent CCE rulemaking. 76 FR
12422 (March 7, 2011). AHRI
commented that there was a disconnect
between what is being proposed in the
CCE rulemaking and the provisions for
testing night curtains and lighting
control devices in the November 2010
NOPR. (AHRI, No. 19 at p. 254) AHRI
also commented that because of issues
related to compliance and claiming
energy savings from night curtains
without testing, manufacturers were
going to be required to test cases twice.
(AHRI, No. 19 at p. 216) NEEA added
that utility programs and ENERGY
STAR will require certified values for
inclusion in their programs. (NEEA, No.
19 at p. 162) Coca-Cola inquired
whether a unit that had been tested
without night curtains had to be
certified with night curtains under the
current CCE requirements. (Coca-Cola,
No. 19 at p. 161) Heatcraft inquired
whether the provision for selling
commercial refrigeration equipment
with and without night curtains if the
unit met DOE’s energy conservation
standards without night curtains
installed could apply to other
components, such as a unit that was
sold with a permanent split capacitor or
evaporative condensed screw condenser
fan. (Heatcraft, No. 19 at p. 155)
In response to AHRI’s comment that
the proposal for testing and certifying
units with night curtains may conflict
with the CCE rulemaking (76 FR 12422
(March 7, 2011)), DOE notes that testing
of equipment with or without night
curtains is not required because there
are currently no Federal prescriptive
standards that include night curtains
and no test procedure to quantify their
effect on equipment energy
consumption. DOE believes that the test
procedure established in this final rule
for units equipped with night curtains
and/or lighting occupancy sensors and
scheduled lighting controls does not
conflict with the CCE requirements that
DOE published in the CCE final rule. 76
FR 12423 (March 7, 2011). Specifically,
as mentioned above, implementation of
night curtains (or lighting occupancy
sensors and/or controls) will only
reduce the reported energy consumption
of the equipment and is consistent with
the basic model provisions, established
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sroberts on DSK5SPTVN1PROD with RULES
in the CCE final rule. 76 FR 12428–29
(March 7, 2011).
Thus, in this final rule DOE is
adopting provisions that allow units
equipped with night curtains and/or
lighting occupancy sensors and controls
to be tested. As described in the CCE
final rule, DOE allows CRE
manufacturers to group individual
models into basic models for the
purposes of testing and certification. 76
FR 12428–29 (March 7, 2011). A
manufacturer may group individual
models with and without night curtains
into one basic model provided that the
certified ratings of all individual models
in the group are identical and
representative of the least efficient
individual model within the basic
model (i.e., the most consumptive
model without night curtains). Today’s
final rule also provides that if
manufacturers wish to make
representations regarding reduced
energy consumption associated with
any feature, such as night curtains,
manufacturers must use multiple basic
models to distinguish between those
with and without night curtains and the
certified ratings of energy consumption
must be developed either through
testing or calculations as permitted by
this final rule.
Regarding Heatcraft’s comment,
manufacturers have some discretion
regarding how to rate units with
permanent split capacitor or evaporative
condensed screw condenser fans.
Manufacturers may group individual
models, with different condenser fans or
other features, into a single basic model
to show compliance with DOE’s energy
conservation standards, provided all
models identified in a certification
report as being the same basic model
must have the same certified efficiency
rating, which is based on the least
efficient model. 76 FR 12428–29 (March
7, 2011).
a. Test Tolerances
In comments received during the
November 2010 NOPR public comment
period, Traulsen stated that the proposal
presented by DOE does not address
tolerances, but that many components
have tolerances of 10 to 15 percent, and
that test laboratories recognize
variations of 5 to 10 percent. Traulsen
suggested a 20 percent tolerance on
standards testing. (Traulsen, No. 9 at pp.
7–8) DOE’s current test tolerances for
commercial refrigeration equipment
were established in the CCE final rule
and are based on a specified sampling
plan and statistical variances
approximated with a Student’s
t-distribution. 76 FR 12430 (March 7,
2011). Amendment of these tolerances,
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18:40 Feb 17, 2012
Jkt 226001
sampling plans, or other items related
specifically to CCE activities for
commercial refrigeration equipment are
not addressed in this test procedure
final rule.
6. Alternative Refrigerants
At the January 2011 NOPR public
meeting, DOE received several
comments regarding alternative
refrigerants. AHRI stated that there is
proposed legislation (unspecified) that
would require the phase down of
hydrofluorocarbons, which would
require the use of alternative refrigerants
in commercial refrigeration equipment,
and suggested that DOE assess the
performance of different refrigerants.
(AHRI, No. 19 at p. 22) California Codes
and Standards commented that DOE
should address the burden of testing the
same piece of equipment when different
refrigerants are used. (California Codes
and Standards, No. 19 at pp. 16–17)
True commented that if the refrigerant
in a case changes, the evaporator coil,
the expansion valve, and several other
components would also have to change,
which would effectively change the
entire system. (True, No. 19 at pp.
19–20) Coca-Cola also commented that
different refrigerants are not used in the
same case. Coca-Cola further stated that
different refrigerants work better at
different temperatures, which is one
reason the cabinets are treated
separately. (Coca-Cola, No. 19 at pp.
20–21)
DOE agrees with Traulsen and CocaCola that if a different refrigerant were
used in a case, it would require a new
case design. Thus, cases with different
refrigerants should be treated as
different basic models and will require
separate tests regardless. The DOE test
procedure finalized here is capable of
testing units using any primary
refrigerant that enters and leaves the
case as a single phase. However, each
unit employing a different refrigerant
would be treated as an individual basic
model because of the different design
considerations and performance
characteristics. DOE acknowledges
AHRI’s comment suggesting that there
may be proposed legislation which
would influence the availability of
hydroflourocarbon refrigerants; however
this legislation is not in place and DOE
does not wish to speculate on the
specific requirements or impacts of any
such legislation.
7. Secondary Coolant Systems
In the January 2009 final rule, DOE
determined secondary coolant systems
to be outside the scope of that
rulemaking because secondary coolant
systems constitute a small market share
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10313
and there is no industry test procedure
that covers all secondary coolant
systems in the market. 74 FR 1105 (Jan.
9, 2009). Neither of these factors has
changed significantly since the January
2009 final rule and, thus, DOE will
continue to exclude secondary coolant
systems from this test procedure and the
concurrent energy conservation
standards rulemaking (Docket No.
EERE–2010–BT–STD–0003).
Nevertheless, several interested
parties commented regarding secondary
coolant systems at both the January
2011 NOPR public meeting and the
April 2011 Preliminary Analysis public
meeting. At the January 2011 NOPR
public meeting, AHRI stated that
secondary coolant systems are excluded
from AHRI 1200, but that AHRI is in the
process of developing a relevant
standard that would be issued soon.
(AHRI, No. 19 at p. 58) True commented
that secondary coolant systems are very
difficult to test and are not covered by
ASHRAE Standard 72. True added that
the ASHRAE Standard 72 committee is
reviewing test methods for secondary
coolant systems, but currently there is
no definitive, repeatable test method.
(True, No. 19 at pp. 17–18) True stated
that the ASHRAE Standard 72
committee is also working to
incorporate test methods for secondary
coolant equipment, but so far has found
the variability of results in the currently
available test methods quite large. True
added that a revised standard would
probably not be ready for inclusion in
the DOE test procedure. (True, No. 19 at
pp. 58–59) Traulsen agreed that it does
not believe that secondary coolant
systems can be effectively tested and
rated. (Traulsen, No. 9 at p. 6) California
Codes and Standards agreed with DOE’s
proposed exclusion of secondary
coolant systems from the test procedure
because it believed that coverage of
them by DOE at this time could result
in a hastily developed regulation, which
would also pre-empt States from
regulating such systems themselves. In
addition, California Codes and
Standards stated that because there is no
test method in place and thus no data,
more data must be collected prior to
developing any standard levels for this
equipment. (California Codes and
Standards, No. 13 at p. 4) NEEA agreed
with DOE’s plan to exclude secondary
coolant equipment from this round of
rulemaking, citing the fact that there is
currently no industry test procedure for
this equipment. Instead, NEEA
encouraged DOE to plan to address this
equipment in the next rulemaking,
potentially by including a ‘‘reserved’’
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
section in this notice. (NEEA, No. 8 at
p. 2)
ACEEE expressed concern about the
lack of coverage of secondary coolant
systems, stating that
hydrochlorfluorocarbon phase-downs
and other factors are increasing the
attention paid to these sorts of systems.
Not regulating these systems, in the
opinion of ACEEE, will prevent
customers from being able to fairly
compare them with existing systems.
However, ACEEE conceded that it is not
clear how to make accommodations in
the test procedure to cover such
equipment. At a minimum, ACEEE
agreed with NEEA that placeholders for
the systems should be inserted into the
rule. (ACEEE, No. 12 at p. 3) True
similarly expressed that secondary loop
systems, often with carbon dioxide
(CO2), are becoming more common,
which offers an environmental
emissions improvement but can result
in decreased energy efficiency. (True,
No. 19 at pp. 17–18)
California Codes and Standards stated
that the State of California is
considering incorporating secondary
loop CO2 systems as part of its building
standards, and will be addressing both
energy efficiency and greenhouse gas
emissions. (California Codes and
Standards, No. 19 at pp. 18–19) ACEEE
stated that manufacturers would likely
prefer that secondary coolant systems be
covered by a DOE rule, as excluding
them would allow States to publish
their own standards. (ACEEE, No. 12 at
p. 3)
At the April 2011 Preliminary
Analysis public meeting, interested
parties also commented regarding the
lack of an industry-accepted test
procedure for secondary coolant
systems. True stated that existing test
methods for secondary coolant systems
work only for systems for which there
is not a phase change and test methods
for transcritical or slurry systems have
yet to be developed or verified. (Docket
No. EERE–2010–BT–STD–0003, True,
No. 31 at p. 162–63) Southern Store
Fixtures stated that AHRI has recently
developed a test procedure for
secondary coolant systems, but that it is
only applicable to fully liquid systems
and does not accommodate two-phase
flow. (Docket No. EERE–2010–BT–STD–
0003, Southern Store Fixtures, No. 31 at
p. 165) AHRI added that its work with
secondary coolant applications is linked
to ASHRAE’s work, and that it too
would have to wait for ASHRAE to
produce a method of test (Docket No.
EERE–2010–BT–STD–0003, AHRI, No.
31 at pp. 165–66) Traulsen agreed with
DOE that secondary coolant
technologies have not matured to the
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18:40 Feb 17, 2012
Jkt 226001
point where regulatory oversight would
be required or beneficial. (Docket No.
EERE–2010–BT–STD–0003, Traulsen,
No. 31 at p. 5)
DOE previously excluded secondary
coolant systems in the January 2009
final rule, in part, because there were no
established test procedures to evaluate
their energy consumption. As AHRI
mentioned, secondary coolant systems
are still excluded from AHRI 1200–
2010. In December 2011, AHRI
published AHRI Standard 1320 (I–P)–
2011, ‘‘Performance Rating of
Commercial Refrigerated Display
Merchandisers and Storage Cabinets for
Use with Secondary Refrigerants.’’
However, as interested parties noted,
this new standard specifies a reference
working fluid and is applicable only to
the portion of secondary coolant
systems that use secondary coolants
with similar characteristics.
Specifically, this standard will not be
applicable to transcritical CO2, brine, or
ammonia secondary coolant systems.
The ASHRAE Standard 72 committee is
also considering a method of testing to
evaluate secondary coolant systems,
including transcritical CO2 systems;
however, this standard was not
available in time for this rulemaking.
DOE agrees with many of the
interested parties that testing secondary
coolant systems accurately will be
difficult and an accepted and vetted
method to do so does not yet exist.
Given this uncertainty and the small
market share of this equipment, DOE
believes it best to continue to exclude
secondary coolant systems from the
DOE test procedure; however, DOE will
continue to consult with ASHRAE and
AHRI regarding the development of a
future test procedure for secondary
coolant systems. In the next DOE test
procedure revision, DOE will reassess
the status and accuracy of industry test
procedures for secondary coolant
systems and, if available, could include
the test procedures in the DOE test
procedure at that time. Since it is not
clear when a reliable and vetted test
procedure for transcritical secondary
coolant systems will be available, DOE
does not wish to reserve a section in this
test procedure final rule.
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,
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Fmt 4701
Sfmt 4700
this action was not subject to review
under the Executive Order by the Office
of Information and Regulatory Affairs
(OIRA) in the OMB.
B. Review Under the Regulatory
Flexibility Act
The Regulatory Flexibility Act (5
U.S.C. 601 et seq.) requires preparation
of an IRFA whenever an agency is
required to publish a general notice of
proposed rulemaking. When an agency
promulgates a final rule after being
required to publish a general notice of
proposed rulemaking, the agency must
prepare a final regulatory flexibility
analysis (FRFA). The requirement to
prepare these analyses does not apply to
any proposed or final rule if the agency
certifies that the rule will not, if
promulgated, have a significant
economic impact on a substantial
number of small entities. If the agency
makes such a certification, the agency
must publish the certification in the
Federal Register along with the factual
basis for such certification.
As required by Executive Order
13272, ‘‘Proper Consideration of Small
Entities in Agency Rulemaking,’’ 67 FR
53461 (Aug. 16, 2002), DOE published
procedures and policies on February 19,
2003, so that the potential impacts of its
rules on small entities are properly
considered during the rulemaking
process. 68 FR 7990 (Feb. 12, 2003).
DOE has made its procedures and
policies available on the Office of the
General Counsel’s Web site at
www.gc.doe.gov.
In the November 2010 NOPR, DOE
reviewed the proposed rule to amend
the test procedure for commercial
refrigeration equipment, under the
provisions of the Regulatory Flexibility
Act and the procedures and policies
published on February 19, 2003. DOE
certified that the proposed rule, if
adopted, would not result in a
significant impact on a substantial
number of small entities. DOE received
comments on its certification and the
economic impacts of the test procedure,
and has responded to these comments
in section III.B.4. After consideration of
these comments, DOE certifies that the
test procedure amendments set forth in
this final rule will not have a significant
impact on a substantial number of small
entities. The factual basis for this
certification is set forth below.
For the CRE manufacturing industry,
the Small Business Administration
(SBA) has set a size threshold, which
defines those entities classified as
‘‘small businesses’’ for the purpose of
the statute. DOE used the SBA’s size
standards to determine whether any
small entities would be required to
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Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
comply with the rule. The size
standards are codified at 13 CFR part
121. The standards are listed by North
American Industry Classification
System (NAICS) code and industry
description and are available at
www.sba.gov/sites/default/files/
Size_Standards_Table.pdf. CRE
manufacturers are classified under
NAICS 333415, ‘‘Air-Conditioning and
Warm Air Heating Equipment and
Commercial and Industrial Refrigeration
Equipment Manufacturing.’’ The SBA
sets a threshold of 750 employees or less
for an entity to be considered as a small
business for this category.
DOE conducted a focused inquiry into
small business manufacturers of
equipment covered by this rulemaking.
During its market survey, DOE used all
available public information to identify
potential small manufacturers. DOE’s
research involved the review of industry
trade association membership
directories (including AHRI), equipment
databases (e.g., Federal Trade
Commission (FTC), the Thomas
Register, California Energy Commission
(CEC), and ENERGY STAR databases),
individual company Web sites, and
marketing research tools (e.g., Dunn and
Bradstreet reports, Manta) to create a list
of companies that manufacture or sell
commercial refrigeration equipment
covered by this rulemaking. DOE also
referred to a list of small businesses that
manufacture commercial refrigeration
equipment, supplied by Traulsen in a
written comment. (Traulsen, No. 9 at
pp. 4–5) Using these sources, DOE
identified 61 manufacturers of
commercial refrigeration equipment.
DOE then reviewed this data to
determine whether the entities met the
SBA’s definition of a small business
manufacturer of commercial
refrigeration equipment and screened
out companies that do not offer
equipment covered by this rulemaking,
do not meet the definition of a ‘‘small
business,’’ or are foreign owned and
operated. Based on this review, DOE has
10315
identified 26 companies that would be
considered small manufacturers. DOE
had originally identified 22
manufacturers of commercial
refrigeration equipment. 75 FR 71596,
71606–07 (Nov. 24, 2010). DOE referred
to the list supplied by Traulsen to revise
its estimate of the number of small
entities considered in this rule.
(Traulsen, No. 9 at pp. 4–5)
Table IV.1 stratifies the small
businesses according to their number of
employees. The smallest company has 6
employees and the largest company has
400 employees. The majority of the
small businesses affected by this
rulemaking (85 percent) have fewer than
200 employees. Annual revenues
associated with these small
manufacturers were estimated at $569.3
million ($21.9 million average annual
sales per small manufacturer).
According to DOE’s analysis, small
entities comprise 43 percent of the
entire commercial refrigeration
equipment manufacturing industry.
TABLE IV.1—SMALL BUSINESS SIZE BY NUMBER OF EMPLOYEES
Number of
small
businesses
Number of employees
Percentage of
small
businesses
Cumulative
percentage
4
3
2
1
2
1
1
2
0
1
1
0
2
0
0
2
3
1
0
15.4
11.5
7.7
3.8
7.7
3.8
3.8
7.7
0.0
3.8
3.8
0.0
7.7
0.0
0.0
7.7
11.5
3.8
0.0
15.4
26.9
34.6
38.5
46.2
50.0
53.8
61.5
61.5
65.4
69.2
69.2
76.9
76.9
76.9
84.6
96.2
100.0
100.0
Total ......................................................................................................................................
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1–10 .............................................................................................................................................
11–20 ...........................................................................................................................................
21–30 ...........................................................................................................................................
31–40 ...........................................................................................................................................
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51–60 ...........................................................................................................................................
61–70 ...........................................................................................................................................
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26
........................
........................
All commercial refrigeration
equipment for which standards were set
in EPACT 2005 are currently required to
be tested using the DOE test procedure
to show compliance with the EPACT
2005 standard levels. Manufacturers of
equipment for which standards were set
in the January 2009 final rule will
similarly be required to test units using
the DOE test procedure to show
compliance with the 2009 standards
levels beginning January 1, 2012. The
current DOE test procedure references
AHRI Standard 1200–2006 and AHAM
HRF–1–2004. This test procedure
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consists of one 24-hour test at standard
rating conditions to determine daily
energy consumption.
In the November 2010 NOPR, DOE
estimated the cost of conducting the
DOE test procedure as $5,000 per
24-hour test. 75 FR 71607 (Nov. 24,
2010). DOE received comments from
interested parties presenting cost
estimates of $15,000 per test. (Southern
Store Fixtures, No. 19 at p. 237;
Hussmann, No. 19 at p. 238; Traulsen,
No. 9 at p. 8; NEEA, No. 8 at p. 7) DOE
revised its analysis using a cost of
$15,000 per 24-hour test, as suggested
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by interested parties. DOE notes that
$15,000 represents the cost of
conducting the current DOE test
procedure, not the incremental cost
associated with the amendments in this
final rule.
In this final rule, DOE is adopting
amendments that align the DOE test
procedure with the most recent industry
test procedures currently in use (AHRI
Standard 1200–2010 and AHAM HRF–
1–2008); incorporate provisions for
testing certain energy efficiency
features, including night curtains and
lighting occupancy sensor and
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sroberts on DSK5SPTVN1PROD with RULES
scheduled controls; and provide a test
procedure for specialty equipment that
cannot be tested at the prescribed rating
temperature. The updated standards
referenced in this test procedure final
rule, namely AHRI Standard 1200–2010
and AHAM HRF–1–2008, are not
substantially different from those
referenced in the current DOE test
procedure. DOE estimates that the
amended test procedure will still
require 24 hours to conduct and cost
approximately $15,000 per test.
For cases with night curtains
installed, manufacturers can now take
advantage of the reduced energy
consumption associated with night
curtains in the DOE test procedure. The
night curtain provisions in the test
procedure require the night curtain to be
pulled down for 6 hours during the test.
DOE believes the incremental burden of
pulling down the night curtain at a
certain time and retracting it 6 hours
later requires less than half a minute
each and is not significant relative to the
burden of conducting the test. Although
there is a small labor requirement
associated with pulling down night
curtains, DOE believes this is not an
incremental burden because conducting
the test already requires personnel to be
present to check temperature probes and
monitor the status of the test. Thus, DOE
has determined that the testing costs for
CRE models with added night curtains
are approximately the same as those for
models without night curtains and
therefore concludes there are no
significant incremental costs associated
with testing models with night curtains.
The amendments in this final rule
allowing calculations to quantify the
energy savings associated with lighting
occupancy sensors and controls will not
lead to significant additional testing
burden. DOE estimates the minimal
costs associated with conducting the
necessary calculations as $26.67 per
test. DOE bases its estimate on the
assumption that it would take an
engineer 30 minutes to perform the
calculation. The average hourly salary
for an engineer completing this task is
estimated at $38.74.25 Fringe benefits
are estimated at 30 percent of total
compensation, which brings the hourly
costs to employers to $55.34.26 As this
incremental cost represents 0.4 percent
of the total testing cost for a unit, DOE
believes this increase is not significant.
25 U.S. Department of Labor, Bureau of Labor
Statistics. 2009. National Occupational
Employment and Wage Estimates. Washington, DC.
26 U.S. Department of Labor, Bureau of Labor
Statistics. 2010. Employer Costs for Employee
Compensation—Management, Professional, and
Related Employees. Washington, DC.
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For equipment that cannot be tested at
the prescribed integrated average
product temperature, manufacturers
currently are required to test the unit
using AHRI Standard 1200 at the
integrated average temperature
associated with their respective
equipment class. Under the revisions
adopted in this final rule, these
manufacturers will be allowed to test
units that cannot meet the prescribed
rating temperature at the lowest
application product temperature, with
the only difference being the integrated
average product temperature. Since the
same test is performed in both cases,
DOE believes that this amendment to
the test procedure will not increase the
burden of test for those manufacturers.
In addition, the provision for testing
units that cannot operate at the
specified integrated average product
temperature will affect only a small
percentage of units. DOE believes there
would not be an incremental increase in
testing burden, for small or large
manufacturers, due to this provision.
DOE also notes that, if a unit is tested
and shows compliance with the relevant
energy conservation standard without
night curtains or lighting occupancy
sensors and scheduled controls
installed, that unit can also be sold with
these efficiency features installed
without additional testing. DOE believes
this provision will reduce burden on
manufacturers.
Because there is not a significant
incremental burden associated with any
of the individual amendments adopted
in this final rule, DOE concludes that
there is not a significant incremental
burden associated with the test
procedure amendments in this final
rule. In fact, the burden of conducting
the amended test procedure is almost
identical to the burden of conducting
the existing DOE test procedure. Since
there is no incremental burden
associated with the amended test
procedure, DOE has determined that
this test procedure final rule does not
impose negative economic impacts on
manufacturers, including small entities.
Thus, DOE continues to certify that this
rule will not have a ‘‘significant
economic impact on a substantial
number of small entities,’’ and the
preparation of a regulatory flexibility
analysis is not warranted. DOE has
transmitted the certification and
supporting statement of factual basis to
the Chief Counsel for Advocacy of the
Small Business Administration for
review under 5 U.S.C. 605(b).
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C. Review Under the Paperwork
Reduction Act of 1995
Manufacturers of commercial
refrigeration equipment must certify to
DOE that their equipment complies with
any applicable energy conservation
standards. In certifying compliance,
manufacturers must test their
equipment according to the DOE test
procedure for commercial refrigeration
equipment, including any amendments
adopted for the test procedure. DOE has
established regulations for the
certification and recordkeeping
requirements for all covered consumer
products and commercial equipment,
including commercial refrigeration
equipment. 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. Public
reporting burden for the certification is
estimated to average 20 hours per
response, including the time for
reviewing instructions, searching
existing data sources, gathering and
maintaining the data needed, and
completing and reviewing the collection
of information.
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 commercial refrigeration
equipment. 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.
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E. Review Under Executive Order 13132
Executive Order 13132, ‘‘Federalism,’’
64 FR 43255 (Aug. 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
various levels of government. EPCA
governs and prescribes Federal
preemption of State regulations as to
energy conservation for the equipment
that is 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
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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 www.gc.doe.gov.
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.
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10317
Today’s 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.
Today’s 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
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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.
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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 NOPR
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 FTC concerning the
impact of the commercial or industry
standards on competition.
The proposed rule incorporates
testing methods contained in the
following commercial standards: (1)
AHAM HRF–1–2008, which supersedes
ANSI/AHAM HRF–1–2004, ‘‘Energy and
Internal Volume of Refrigerating
Appliances,’’ including errata issued
November 17, 2009, section 3.30,
‘‘Volume,’’ and sections 4.1 through 4.3,
‘‘Method for Computing Refrigerated
Volume of Refrigerators, RefrigeratorFreezers, Wine Chillers and Freezers,’’
in 10 CFR 431.64(b)(3) and 431.66(a)(1);
and (2) AHRI Standard 1200–2010,
which supersedes ARI Standard 1200–
2006, ‘‘Performance Rating of
Commercial Refrigerated Display
Merchandisers and Storage Cabinets,’’
section 3, ‘‘Definitions,’’ section 4, ‘‘Test
Requirements,’’ and section 7, ‘‘Symbols
and Subscripts,’’ in 10 CFR 431.64(b)(1),
(b)(2), (b)(4)(i), and (b)(4)(ii), and
431.66(a)(3), (d)(2) and (3). As stated in
the November 2010 NOPR, DOE has
evaluated these standards and is unable
to conclude whether they fully comply
with the requirements of section 323(b)
of the Federal Energy Administration
Act (i.e., determine that they were
developed in a manner that fully
provides for public participation,
comment, and review). 75 FR 71596,
71609 (Nov. 24, 2010). 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.
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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).
V. 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 431
Administrative practice and
procedure, Confidential business
information, Energy conservation test
procedures, Incorporation by reference.
Issued in Washington, DC, on January 31,
2012.
Kathleen B. Hogan,
Deputy Assistant Secretary, Energy Efficiency
and Renewable Energy.
For the reasons stated in the
preamble, DOE amends part 431 of
Chapter II of Title 10, Code of Federal
Regulations as set forth below:
PART 431—ENERGY EFFICIENCY
PROGRAM FOR CERTAIN
COMMERCIAL AND INDUSTRIAL
EQUIPMENT
1. The authority citation for part 431
continues to read as follows:
■
Authority: 42 U.S.C. 6291–6317.
2. Section 431.62 is amended by
adding in alphabetical order the
definitions of ‘‘lighting occupancy
sensor,’’ ‘‘lowest application product
temperature,’’ ‘‘night curtain,’’ and
‘‘scheduled lighting control’’ to read as
follows:
■
§ 431.62 Definitions concerning
commercial refrigerators, freezers, and
refrigerator-freezers.
*
*
*
*
*
Lighting occupancy sensor means a
device which uses passive infrared,
ultrasonic, or other motion-sensing
technology to automatically turn off or
dim lights within the equipment when
no motion is detected in the sensor’s
coverage area for a certain preset period
of time.
Lowest application product
temperature means the integrated
average temperature closest to the
specified rating temperature for a given
piece of equipment achievable and
repeatable, such that the integrated
average temperature of a given unit is
within ±2 °F of the average of all
integrated average temperature values
for that basic model.
Night curtain means a device which is
temporarily deployed to decrease air
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exchange and heat transfer between the
refrigerated case and the surrounding
environment.
*
*
*
*
*
Scheduled lighting control means a
device which automatically shuts off or
dims the lighting in a display case at
scheduled times throughout the day.
*
*
*
*
*
■ 3. Section 431.63 is amended by
adding paragraph (b)(2) and revising
paragraph (c) to read as follows:
§ 431.63 Materials incorporated by
reference.
*
*
*
*
*
(b) * * *
(2) AHAM HRF–1–2008 (‘‘HRF–1–
2008’’), Association of Home Appliance
Manufacturers, Energy and Internal
Volume of Refrigerating Appliances
(2008) including Errata to Energy and
Internal Volume of Refrigerating
Appliances, Correction Sheet issued
November 17, 2009, IBR approved for
§ 431.64.
(c) AHRI. Air-Conditioning, Heating,
and Refrigeration Institute, 2111 Wilson
Blvd., Suite 500, Arlington, VA 22201,
(703) 524–8800, ahri@ahrinet.org, or
https://www.ahrinet.org/Content/
StandardsProgram_20.aspx.
(1) ARI Standard 1200–2006,
Performance Rating of Commercial
Refrigerated Display Merchandisers and
Storage Cabinets, 2006, IBR approved
for §§ 431.64 and 431.66.
(2) AHRI Standard 1200 (I–P)–2010
(‘‘AHRI Standard 1200 (I–P)–2010’’),
2010 Standard for Performance Rating
of Commercial Refrigerated Display
Merchandisers and Storage Cabinets,
2010, IBR approved for § 431.64.
■ 4. Section 431.64 is amended by
revising paragraph (b) to read as follows:
§ 431.64 Uniform test method for the
measurement of energy consumption of
commercial refrigerators, freezers, and
refrigerator-freezers.
*
*
*
*
*
(b) Testing and calculations.
Manufacturers shall use this paragraph
(b) for the purposes of certifying
compliance with the applicable energy
conservation standards and for all
representations of energy efficiency/
energy use. For equipment
manufactured prior to January 1, 2016,
determine the daily energy consumption
of each covered commercial refrigerator,
freezer, or refrigerator-freezer by
conducting the test procedure set forth
in the Air-Conditioning and
Refrigeration Institute (ARI) Standard
1200–2006, ‘‘Performance Rating of
Commercial Refrigerated Display
Merchandisers and Storage Cabinets,’’
section 3, ‘‘Definitions,’’ section 4, ‘‘Test
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10319
CECA is the Alternate Compressor Energy
Consumption (kilowatt-hours);
LECsc is the lighting energy consumption of
internal case lights with lighting occupancy
sensors and controls deployed (kilowatthours);
Pli is the rated power of lights when they
are fully on (watts);
Pli(off) is the power of lights when they are
off (watts);
Pli(dim) is the power of lights when they are
dimmed (watts);
TDECo is the total daily energy
consumption with lights fully on, as
measured by AHRI Standard 1200 (I–P)–2010
(kilowatt-hours);
tdim is the time period which the lights are
dimmed due to the use of lighting occupancy
sensors or scheduled lighting controls
(hours);
tdim,controls is the time case lighting is
dimmed due to the use of lighting controls
(hours);
tdim,sensors is the time case lighting is
dimmed due to the use of lighting occupancy
sensors (hours);
tl is the time period when lights would be
on without lighting occupancy sensors and/
or scheduled lighting controls (24 hours);
toff is the time period which the lights are
off due to the use of lighting occupancy
sensors and/or scheduled lighting controls
(hours);
toff,controls is the time case lighting is off due
to the use of scheduled lighting controls
(hours);
toff,sensors is the time case lighting is off due
to the use of lighting occupancy sensors
(hours); and
tsc is the time period when lighting is fully
on with lighting occupancy sensors and
scheduled lighting controls enabled (hours).
(i) For both a physical test and a
calculation method, determine the estimated
time off or dimmed, toff or tdim, as the sum
of contributions from lighting occupancy
sensors and scheduled lighting controls
which dim or turn off lighting, respectively,
as shown in the following equation:
The sum of tsc, toff, and tdim should equal
24 hours and the total time period during
which the lights are off or dimmed shall not
exceed 10.8 hours. For cases with scheduled
lighting controls, the time the case lighting is
off and/or dimmed due to scheduled lighting
controls (toff,controls and/or tdim,controls, as
applicable) shall not exceed 8 hours. For
cases with lighting occupancy sensors
installed, the time the case lighting is off
and/or dimmed due to lighting occupancy
sensors (toff,sensors and/or tdim,sensors, as
applicable) shall not exceed 10.8 hours. For
cases with lighting occupancy sensors and
scheduled lighting controls installed, the
time the case lighting is off and/or dimmed
due to lighting occupancy sensors (toff,sensors
and/or tdim,sensors, as applicable) shall not
exceed 2.8 hours and the time the case
lighting is off and/or dimmed due to
scheduled lighting controls (toff,controls and/or
tdim,controls, as applicable) shall not exceed 8
hours.
(ii) If using a physical test to determine the
daily energy consumption of a commercial
refrigerator, freezer, or refrigerator-freezer
sold with lighting occupancy sensors,
scheduled lighting controls, or lighting
occupancy sensors and scheduled lighting
controls installed on the unit, turn off the
lights for a time period equivalent to toff and
dim the lights for a time period equal to tdim.
If night curtains are also being tested on the
case, the period of lights off and/or dimmed
shall begin at the same time that the night
curtain is being deployed and shall continue
consecutively, in that order, for the
appropriate number of hours.
(iii) If using a calculation method to
determine the daily energy consumption of a
commercial refrigerator, freezer, or
refrigerator-freezer sold with lighting
occupancy sensors, scheduled lighting
controls, or lighting occupancy sensors and
scheduled lighting controls installed on the
unit—
(A) Calculate the LECsc using the following
equation:
ER21FE12.002</GPH>
freezer, or refrigerator-freezer with a
remote condensing unit, also use AHRI
Standard 1200 (I–P)–2010, section 5,
‘‘Rating Requirements for Remote
Commercial Refrigerated Display
Merchandisers and Storage Cabinets.’’
(1) For display cases manufactured
after January 1, 2016 and sold with
night curtains installed, the night
curtain shall be employed for 6 hours;
3 hours after the start of the first defrost
period. Upon the completion of the 6hour period, the night curtain shall be
raised until the completion of the 24hour test period.
(2) For commercial refrigerators,
freezers, and refrigerator-freezers
manufactured after January 1, 2016 and
sold with lighting occupancy sensors,
scheduled lighting controls, or lighting
occupancy sensors and scheduled
lighting controls installed on the unit,
the effect on daily energy consumption
will be determined by either a physical
test or a calculation method and using
the variables that are defined as:
(B) Calculate the CECA using the following
equation:
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18:40 Feb 17, 2012
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Requirements,’’ and section 7, ‘‘Symbols
and Subscripts’’ (incorporated by
reference, see § 431.63). For each
commercial refrigerator, freezer, or
refrigerator-freezer with a self-contained
condensing unit, also use ARI Standard
1200–2006, section 6, ‘‘Rating
Requirements for Self-contained
Commercial Refrigerated Display
Merchandisers and Storage Cabinets.’’
For each commercial refrigerator,
freezer, or refrigerator-freezer with a
remote condensing unit, also use ARI
Standard 1200–2006, section 5, ‘‘Rating
Requirements for Remote Commercial
Refrigerated Display Merchandisers and
Storage Cabinets.’’ For equipment
manufactured on or after January 1,
2016, determine the daily energy
consumption of each covered
commercial refrigerator, freezer,
refrigerator-freezer or ice-cream freezer
by conducting the test procedure set
forth in the AHRI Standard 1200 (I–P)–
2010, section 3, ‘‘Definitions,’’ section 4,
‘‘Test Requirements,’’ and section 7,
‘‘Symbols and Subscripts’’ (incorporated
by reference, see § 431.63). For each
commercial refrigerator, freezer, or
refrigerator-freezer with a self-contained
condensing unit, also use AHRI
Standard 1200 (I–P)–2010, section 6,
‘‘Rating Requirements for Self-contained
Commercial Refrigerated Display
Merchandisers and Storage Cabinets.’’
For each commercial refrigerator,
10320
Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
Where EER represents the energy efficiency
ratio from Table 1 in AHRI Standard 1200
(I–P)-2010 (incorporated by reference, see
§ 431.63) for remote condensing equipment
or the values shown in the following table for
self-contained equipment:
(C) For remote condensing
commercial refrigerators, freezers, and
refrigerator-freezers with lighting
occupancy sensors, scheduled lighting
controls, or lighting occupancy sensors
and scheduled lighting controls
installed, the revised compressor energy
EER FOR SELF-CONTAINED COMMER- consumption (CECR) shall be the CECA
added to the compressor energy
CIAL REFRIGERATED DISPLAY MERconsumption (CEC) measured in AHRI
CHANDISERS AND STORAGE CABIStandard 1200 (I–P)-2010 (incorporated
NETS
by reference, see § 431.63). The CDEC
for the entire case shall be the sum of
EER
the CECR and LECsc (as calculated
Operating temperature class
Btu/W
above) and the fan energy consumption
Medium .........................................
11 (FEC), anti-condensate energy
Low ...............................................
7 consumption (AEC), defrost energy
Ice Cream .....................................
5 consumption (DEC), and condensate
evaporator pan energy consumption
(PEC) (as measured in AHRI Standard
1200 (I–P)-2010).
(D) For self-contained commercial
refrigerators, freezers, and refrigeratorfreezers with lighting occupancy
sensors, scheduled lighting controls, or
lighting occupancy sensors and
scheduled lighting controls installed,
the TDEC for the entire case shall be the
sum of total daily energy consumption
as measured by the AHRI Standard 1200
(I–P)-2010 (incorporated by reference,
see § 431.63) test with the lights fully on
(TDECo) and CECA, less the decrease in
lighting energy use due to lighting
occupancy sensors and scheduled
lighting controls, as shown in following
equation.
(3) Conduct the testing required in
paragraphs (b) introductory text, (b)(1),
and (2) of this section, and determine
integrated average temperature is
determined using the required test
method.
(i) Refrigerator with Solid Door(s) ............................
(ii) Refrigerator with Transparent Door(s) ...............
(iii) Freezer with Solid Door(s) .................................
(iv) Freezer with Transparent Door(s) .....................
(v) Refrigerator-Freezer with Solid Door(s) .............
(vi) Commercial Refrigerator with a Self-Contained
Condensing Unit Designed for Pull-Down Temperature Applications and Transparent Doors.
(vii) Ice-Cream Freezer ............................................
(viii) Commercial Refrigerator, Freezer, and Refrigerator-Freezer with a Self-Contained Condensing Unit and without Doors.
sroberts on DSK5SPTVN1PROD with RULES
(ix) Commercial Refrigerator, Freezer, and Refrigerator-Freezer with a Remote Condensing Unit.
(A) If a piece of commercial
refrigeration equipment is not able to be
tested at the specified integrated average
temperatures of 38 °F (±2 °F), 0 °F (±2
°F), or ¥15 °F (±2 °F) for refrigerators,
freezers, and ice-cream freezers,
respectively, the unit may be tested at
the lowest application product
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ARI Standard
2006.
ARI Standard
2006.
ARI Standard
2006.
ARI Standard
2006.
ARI Standard
2006.
1200–
1200–
1200–
1200–
1200–
Test procedure on or
after January 1, 2016
AHRI Standard 1200 .....
(I–P)–2010 .....................
AHRI Standard 1200 .....
(I–P)–2010 .....................
AHRI Standard 1200 .....
(I–P)–2010 .....................
AHRI Standard 1200 .....
(I–P)–2010 .....................
AHRI Standard 1200 .....
(I–P)–2010 .....................
ARI Standard 1200–
2006.
AHRI Standard 1200 .....
(I–P)–2010 .....................
ARI Standard 1200–
2006.
ARI Standard 1200–
2006.
AHRI Standard 1200 .....
(I–P)–2010 .....................
AHRI Standard 1200 .....
(I–P)–2010 .....................
ARI Standard 1200–
2006.
AHRI Standard 1200 .....
(I–P)–2010 .....................
temperature, as defined in § 431.62. For
many pieces of equipment, this will be
the lowest thermostat setting. For
remote condensing equipment without a
thermostat or other means of controlling
temperature at the case, the lowest
application product temperature shall
be that achieved with the adjusted dew
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Integrated average temperatures
38 °F (±2 °F).
38 °F (±2 °F).
0 °F (±2 °F).
0 °F (±2 °F).
38 °F (±2 °F) for refrigerator compartment.
0 °F (±2 °F) for freezer compartment.
38 °F (±2 °F).
¥15.0 °F (±2 °F).
(A) 0 °F (±2 °F) for low temperature
applications.
(B) 38.0 °F (±2 °F) for medium temperature applications.
(A) 0 °F (±2 °F) for low temperature
applications.
(B) 38.0 °F (±2 °F) for medium temperature applications.
point temperature (as defined in AHRI
1200 (I–P)–2010) set to 5 degrees colder
than that required to maintain the
manufacturer’s lowest specified
application temperature.
(B) For commercial refrigeration
equipment that is also tested in
accordance with NSF test procedures
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Test procedure prior to
January 1, 2016
Category
ER21FE12.003</GPH>
the daily energy consumption, at the
applicable integrated average
temperature in the following table. The
Federal Register / Vol. 77, No. 34 / Tuesday, February 21, 2012 / Rules and Regulations
sroberts on DSK5SPTVN1PROD with RULES
(Type I and Type II), integrated average
temperatures and ambient conditions
used for NSF testing may be used in
place of DOE prescribed integrated
average temperatures and ambient
conditions provided they result in a
more stringent test. That is, the
measured daily energy consumption of
the same unit, when tested at the rating
temperatures and/or ambient conditions
specified in the DOE test procedure,
will be lower than or equal to the
measured daily energy consumption of
the unit when tested with the rating
temperatures or ambient conditions
used for NSF testing. The integrated
average temperature measured during
the test may be lower than the range
specified by the DOE rating temperature
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specifications, provided in paragraph
(b)(3) of this section, but may not exceed
the upper value of the specified range.
Ambient temperatures and/or humidity
values may be higher than those
specified in the DOE test procedure.
(4) For equipment manufactured prior
to January 1, 2016, determine the
volume of each covered commercial
refrigerator, freezer, or refrigeratorfreezer using the methodology set forth
in the ANSI/AHAM HRF–1–2004,
‘‘Energy, Performance and Capacity of
Household Refrigerators, RefrigeratorFreezers and Freezers’’ (incorporated by
reference, see § 431.63), section 3.21,
‘‘Volume,’’ sections 4.1 through 4.3,
‘‘Method for Computing Total
Refrigerated Volume and Total Shelf
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10321
Area of Household Refrigerators and
Household Wine Chillers,’’ and sections
5.1 through 5.3, ‘‘Method for Computing
Total Refrigerated Volume and Total
Shelf Area of Household Freezers.’’ For
equipment manufactured on or after
January 1, 2016, determine the volume
of any covered commercial refrigerator,
freezer, refrigerator-freezer, or ice-cream
freezer using the method set forth in the
HRF–1–2008 (incorporated by reference,
see § 431.63), section 3.30, ‘‘Volume,’’
and sections 4.1 through 4.3, ‘‘Method
for Computing Refrigerated Volume of
Refrigerators, Refrigerator-Freezers,
Wine Chillers and Freezers.’’
[FR Doc. 2012–3201 Filed 2–17–12; 8:45 am]
BILLING CODE 6450–01–P
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]]>Agencies
[Federal Register Volume 77, Number 34 (Tuesday, February 21, 2012)]
[Rules and Regulations]
[Pages 10292-10321]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: 2012-3201]
[[Page 10291]]
Vol. 77
Tuesday,
No. 34
February 21, 2012
Part IV
Department of Energy
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10 CFR Part 431
Energy Conservation Program: Test Procedure for Commercial
Refrigeration Equipment; Final Rule
��Federal Register / Vol. 77 , No. 34 / Tuesday, February 21, 2012 /
Rules and Regulations��
[[Page 10292]]
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DEPARTMENT OF ENERGY
10 CFR Part 431
[Docket No. EERE-2010-BT-TP-0034]
RIN 1904-AC40
Energy Conservation Program: Test Procedure for Commercial
Refrigeration Equipment
AGENCY: Office of Energy Efficiency and Renewable Energy, U.S.
Department of Energy.
ACTION: Final rule.
-----------------------------------------------------------------------
SUMMARY: In this final rule, the U.S. Department of Energy (DOE) is
amending its test procedure for commercial refrigeration equipment
(CRE), incorporating changes that will take effect 30 days after the
final rule is published in the Federal Register. These changes will be
mandatory for equipment testing to demonstrate compliance with the
amended energy standards (Docket No. EERE-2010-BT-STD-0003). The
amendments to the test procedure adopted in this final rule include
updating references to industry test procedures to their current
versions, incorporating methods to evaluate the energy impacts
resulting from the use of night curtains and lighting occupancy sensors
and controls, and allowing testing of certain commercial refrigeration
equipment at the lowest temperature at which it is able to operate,
referred to as its lowest application product temperature. In response
to comments received in response to the relevant November 2010 Notice
of Proposed Rulemaking (NOPR), and to minimize the testing burden on
manufacturers, DOE is also incorporating provisions to allow
manufacturers to test at the rating temperatures and ambient conditions
required by NSF International (founded in 1944 as the National
Sanitation Foundation, now referred to simply as NSF) for food safety
testing.
DATES: The effective date of this rule is March 22, 2012. The final
rule changes will be mandatory for equipment testing starting on the
compliance date of any amended energy conservation standards
promulgated as a result of the on-going energy conservation standard
rulemaking for commercial refrigeration equipment (Docket No. EERE-
2010-BT-STD-0003). Representations either in writing or in any
broadcast advertisement with respect to energy consumption of
commercial refrigeration equipment must also be made using the revised
DOE test procedure beginning on that compliance date.
The incorporation by reference of certain publications listed in
this final rule is approved by the Director of the Office of the
Federal Register as of March 22, 2012.
ADDRESSES: The docket is available for review at regulations.gov,
including Federal Register notices, framework documents, public meeting
attendee lists and transcripts, comments, and other supporting
documents/materials. All documents in the docket are listed in the
regulations.gov index. However, not all documents listed in the index
may be publicly available, such as information that is exempt from
public disclosure.
A link to the docket Web page can be found at:
www1.eere.energy.gov/buildings/appliance_standards/commercial/refrigeration_equipment.html. 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: Mr. Charles Llenza, U.S. Department of
Energy, Office of Energy Efficiency and Renewable Energy, Building
Technologies Program, EE-2J, 1000 Independence Avenue SW., Washington,
DC 20585-0121. Telephone: (202) 586-2192. Email:
Charles.Llenza@ee.doe.gov.
Ms. Jennifer Tiedeman, U.S. Department of Energy, Office of the
General Counsel, GC-71, 1000 Independence Avenue SW., Washington, DC
20585-0121. Telephone: (202) 287-6111.
Email:Jennifer.Tiedeman@hq.doe.gov.
SUPPLEMENTARY INFORMATION: This final rule incorporates by reference
into Part 431 the following industry standards:
(1) Air-Conditioning, Heating, and Refrigeration Institute (AHRI)
Standard 1200 (I-P)-2010, ``2010 Standard for Performance Rating of
Commercial Refrigerated Display Merchandisers and Storage Cabinets,''
and
(2) Association of Home Appliance Manufacturers (AHAM) Standard
HRF-1-2008, ``Energy and Internal Volume of Refrigerating Appliances
(2008),'' including Errata to Energy and Internal Volume of
Refrigerating Appliances, Correction Sheet issued November 17, 2009.
Copies of AHRI standards may be purchased from the Air-
Conditioning, Heating, and Refrigeration Institute, 2111 Wilson Blvd.,
Suite 500, Arlington, VA 22201, 703-524-8800, or at www.ahrinet.org.
Copies of AHAM standards may be purchased from the Association of
Home Appliance Manufacturers, 1111 19th Street, NW., Suite 402,
Washington, DC 20036, 202-872-5955, or at www.aham.org.
Table of Contents
I. Authority and Background
A. Authority
B. Background
C. Test Procedure Rulemaking Requirements and Impact on Energy
Conservation Standards
II. Summary of the Final Rule
III. Discussion
A. Amendments to the Test Procedure
1. Updated References to Industry Test Procedures to Their Most
Current Versions
2. Inclusion of a Method for Determining Reduced Energy
Consumption Due to the Use of Night Curtains on Open Cases
a. Representative Use
b. Applicable Equipment
c. Cost Effectiveness
3. Inclusion of a Calculation for Determining Reduced Energy
Consumption Due to Use of Lighting Occupancy Sensors or Controls
a. Definition of Lighting Control and Lighting Occupancy Sensor
b. Manual Controls
c. Remote Lighting Controls
d. Representative Energy Savings
e. Optional Physical Test
4. Inclusion of a Provision for Testing at Lowest Application
Product Temperature
a. Definition of Lowest Application Product Temperature
b. Extension of Lowest Application Product Temperature Rating to
All Equipment Classes and Rating Temperatures
c. Energy Conservation Standard for Equipment Tested at the
Lowest Application Product Temperature
d. Remote Condensing Units and the Lowest Application Product
Temperature
5. Provisions Allowing Testing of Equipment at NSF Test
Temperatures
B. Other Notice of Proposed Rulemaking Comments and DOE
Responses
1. Equipment Scope
a. Remote Condensing Racks
b. Testing of Part-Load Technologies at Variable Refrigeration
Load
2. Effective Date
3. Preemption
4. Burden of Testing
a. Determination of Basic Models in the Context of Night Curtain
and Lighting Occupancy Sensor and Scheduled Control Test Provisions
b. Estimates of Burden
c. Coordination With ENERGY STAR
5. Association With Compliance, Certification, and Enforcement
Regulations
a. Test Tolerances
[[Page 10293]]
6. Alternative Refrigerants
7. Secondary Coolant Systems
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
V. Approval of the Office of the Secretary
I. Authority and Background
A. Authority
Title III, Part C of the Energy Policy and Conservation Act of 1975
(EPCA), Public Law 94-163 (42 U.S.C. 6311-6317, as codified), added by
Public Law 95-619, title IV, section 441(a), established the Energy
Conservation Program for Certain Industrial Equipment, a program
covering certain industrial equipment, which includes commercial
refrigerators, freezers, and refrigerator-freezers, the subject of this
final rule.\1\
---------------------------------------------------------------------------
\1\ For editorial reasons, upon codification in the U.S. Code,
Part C was re-designated Part A-1.
---------------------------------------------------------------------------
Under EPCA, this program consists essentially of four parts: (1)
Testing; (2) labeling; (3) Federal energy conservation standards \2\;
and (4) certification and enforcement procedures. The testing
requirements consist of test procedures that manufacturers of covered
equipment must use (1) as the basis for certifying to DOE that their
equipment complies with the applicable energy conservation standards
adopted under EPCA; and (2) for making representations about the
efficiency of those pieces of equipment. Similarly, DOE must use these
test requirements to determine whether the equipment complies with
relevant standards promulgated under EPCA. (42 U.S.C. 6315(b), 6295(s),
and 6316(a)) The current test procedure for commercial refrigeration
equipment appears under Title 10 of the Code of Federal Regulations
(CFR) part 431, subpart C.
---------------------------------------------------------------------------
\2\ EPCA prescribes energy conservation standards for self-
contained commercial refrigerators, freezers, and refrigerator-
freezers with solid or transparent doors designed for holding
temperature applications, as well as self-contained refrigerators
with transparent doors designed for pull-down applications. (42
U.S.C. 6313(c)(2)-(3)) EPCA also requires DOE to develop standards
for ice-cream freezers; self-contained commercial refrigerators,
freezers, and refrigerator-freezers without doors; and remote
condensing commercial refrigerators, freezers, and refrigerator-
freezers. (42 U.S.C. 6313(c)(4)(A)) DOE conducted a rulemaking to
establish standards for these equipment classes (2009 energy
conservation standards rulemaking) and published a final rule on
January 9, 2009 (the January 2009 final rule). 74 FR 1092.
---------------------------------------------------------------------------
EPCA requires DOE to conduct an evaluation of each class of covered
equipment at least once every 7 years to determine whether to, among
other things, amend the test procedure for such equipment. (42 U.S.C.
6314(a)(1)(A)) This rulemaking fulfills DOE's obligation under EPCA to
evaluate the test procedure for commercial refrigeration equipment
every 7 years.
In addition, EPCA contains specific provisions relating to the test
procedure for commercial refrigeration equipment. The test procedure
for commercial refrigerators, freezers, and refrigerator-freezers must
be: (1) The test procedure determined to be generally accepted industry
testing procedures; or (2) rating procedures developed or recognized by
the American Society of Heating, Refrigerating and Air-Conditioning
Engineers (ASHRAE) or by the American National Standards Institute
(ANSI). (42 U.S.C. 6314(a)(6)(A)(i)) EPCA also establishes the initial
test procedure for self-contained refrigerators, freezers, and
refrigerator-freezers with doors. EPCA established the ASHRAE Standard
117 test procedure, ``Method of Testing Closed Refrigerators,'' (ASHRAE
117-2002) as the initial test procedure for commercial refrigeration
equipment, which became effective on January 1, 2005. (42 U.S.C.
6314(a)(6)(A)(ii))
EPCA also establishes that if ASHRAE 117 is amended, the Secretary
of Energy (Secretary) must, by rule, amend the DOE test procedure to
ensure consistency with the amended ASHRAE 117 standard, unless a case
can be made, through certain findings based on clear and convincing
evidence, that the amended ASHRAE 117 does not meet the requirements
for a test procedure set forth in EPCA. (42 U.S.C. 6314(a)(6)(E) and
6314(2)-(3)) In addition, EPCA states that if a test procedure other
than ASHRAE 117 is approved by ANSI, the Secretary must review the
relative strengths and weaknesses of such a new test procedure relative
to the ASHRAE 117 test procedure and, based on that review, determine
whether to adopt the alternate test procedure as the DOE test
procedure. (42 U.S.C. 6314(a)(6)(F))
B. Background
ASHRAE amended ASHRAE 117-2002 and adopted ASHRAE Standard 72-2005,
``Method of Testing Commercial Refrigerators and Freezers,'' in its
place, which was approved by ANSI on July 29, 2005. During the 2006 en
masse test procedure rulemaking, which adopted the test procedures
specifically established in EPACT 2005, DOE reviewed ASHRAE Standard
72-2005, as well as ARI Standard 1200-2006. 71 FR 71357 (Dec. 8, 2006).
DOE determined that ARI Standard 1200-2006 references the test
procedure in ASHRAE Standard 72-2005, as well as the rating
temperatures prescribed in EPACT 2005 for certain types of commercial
refrigerators and freezers. (42 U.S.C. 6314(a)(6)(B)(i)) As a result,
on December 8, 2006, DOE published a final rule (December 2006 en masse
test procedure final rule) that, among other things, adopted ANSI/Air-
Conditioning and Refrigeration Institute (ARI) Standard 1200-2006,
``2006 Standard for Performance Rating of Commercial Refrigerated
Display Merchandisers and Storage Cabinets,'' (hereafter referenced as
ARI Standard 1200-2006) as the referenced test procedure for measuring
energy consumption for commercial refrigeration equipment. 71 FR 71370
(Dec. 8, 2006); 10 CFR 431.63-64. ARI Standard 1200-2006 prescribes
rating temperature specifications of 38 [deg]F (2 [deg]F)
for commercial refrigerators and refrigerator compartments, 0 [deg]F
(2 [deg]F) for commercial freezers and freezer
compartments, and -5 [deg]F (2 [deg]F) for commercial ice-
cream freezers. Even though ARI Standard 1200-2006 specified a rating
temperature for commercial ice-cream freezers, EPACT 2005 did not
specify a rating temperature or standards for commercial ice-cream
freezers. During the 2006 test procedure rulemaking, DOE determined
that testing at a -15 [deg]F (2 [deg]F) rating temperature
was more representative of the actual energy consumption of commercial
freezers specifically designed for ice-cream application. 71 FR 71357
(Dec. 8, 2006). Therefore, in the December 2006 en masse test procedure
final rule, DOE adopted a -15 [deg]F (2 [deg]F) rating
temperature for commercial ice-cream freezers, rather than the -
5[emsp14][deg]F (2 [deg]F) prescribed in the ARI Standard
1200-2006. Id. at 71357 (Dec. 8, 2006). In addition, as part of the
2006 en masse test procedure final rule, DOE adopted ANSI/AHAM Standard
HRF-1-2004, ``Energy, Performance and Capacity of Household
Refrigerators, Refrigerator-Freezers and Freezers,'' (hereafter
referred to as AHAM HRF-1-2004) for measuring refrigerated compartment
volumes for equipment covered under this rule. Id. at 71358 (Dec. 8,
2006).
[[Page 10294]]
Approximately one year after the publication of the December 2006
en masse test procedure final rule, ARI merged with the Gas Appliance
Manufacturers Association (GAMA) to form the Air-Conditioning, Heating,
and Refrigeration Institute (AHRI), and updated its test procedure, the
most recent version of which is AHRI Standard 1200-2010, ``2010
Standard for Performance Rating of Commercial Refrigerated Display
Merchandisers and Storage Cabinets,'' (hereafter referenced as AHRI
Standard 1200-2010), which was approved by ANSI on January 4, 2011.
AHRI Standard 1200-2010 includes changes to (1) the equipment class
nomenclature used in the test procedure, (2) the method of normalizing
equipment energy consumption, (3) the ice-cream freezer test
temperature, and (4) other minor clarifications. These changes aligned
the AHRI test procedure with the nomenclature, rating temperatures, and
normalization method used in DOE's 2009 energy conservation standards
rulemaking for commercial refrigeration equipment. 74 FR 1092, 1093-96
(Jan. 9, 2009).
Similarly, AHAM updated Standard HRF-1-2004 to its most recent
version, AHAM HRF-1-2008, ``Energy and Internal Volume of Refrigerating
Appliances.'' The changes to this standard were mostly editorial and
involved reorganizing some of the sections for greater simplicity and
usability. As part of the reorganization, the sections of AHAM HRF-1-
2004 that currently are referenced within the DOE test procedure,
specifically section 3.21, ``Volume''; sections 4.1 through 4.3,
``Method for Computing Total Refrigerated Volume and Total Shelf Area
of Household Refrigerators and Household Wine Chillers''; and sections
5.1 through 5.3, ``Method for Computing Total Refrigerated Volume and
Total Shelf Area of Household Freezers''; were reorganized and
renumbered in the updated HRF-1-2008. However, the content of those
sections was not changed substantially. The newly updated AHRI Standard
1200-2010 references the most recent version of the AHAM standard, AHAM
HRF-1-2008. As such, DOE is updating its test procedures to adopt AHRI
Standard 1200-2010 as the test procedure for commercial refrigeration
equipment and AHAM HRF-1-2008 as the prescribed method for determining
refrigerated compartment volume.
DOE is also incorporating new test methods in the DOE test
procedure to better address certain energy efficiency features
applicable to CRE that cannot be accounted for by the current test
procedure. During the advanced notice of proposed rulemaking phase of
the 2009 energy conservation standards rulemaking for commercial
refrigeration equipment, DOE screened out several energy efficient
technology options because their effects were not captured by the
current test procedure. 72 FR 41162, 41179-80 (July 26, 2007). In the
amended test procedure described in this final rule, DOE is adopting
modifications to its test procedure to better address some of these
technologies. Specific changes include provisions for measuring the
impact of night curtains \3\ and lighting occupancy sensors and
controls \4\.
---------------------------------------------------------------------------
\3\ Night curtains are devices made of an insulating material,
typically insulated aluminum fabric, designed to be pulled down over
the open front of the case (similar to the way a window shade
operates) to decrease infiltration and heat transfer into the case
when the merchandizing establishment is closed.
\4\ Lighting occupancy sensors are devices that automatically
shut off or dim the lights in display cases when no motion is
detected in the sensor's coverage area for a certain preset period
of time. Scheduled lighting control means a device which
automatically shuts off or dims the lighting in a display case at
preset scheduled times throughout the day.
---------------------------------------------------------------------------
On May 18, 2010, DOE held a public meeting (the May 2010 Framework
public meeting) to discuss the rulemaking framework for the concurrent
CRE energy conservation standards (Docket No. EERE-2010-BT-STD-0003).
See 75 FR 24824 (May 6, 2010). During the May 2010 Framework public
meeting, DOE received comments from several interested parties that
additional rating temperatures should be considered in the test
procedure for certain types of specialized commercial refrigeration
equipment. The commenters stated that some covered commercial
refrigeration equipment designed for operation at higher temperatures
is not able to be tested at the prescribed 38 [deg]F, and they
suggested that DOE consider this in both the test procedure and the
standards rulemakings. (Docket No. EERE-2010-BT-STD-0003, California
Codes and Standards, No. 1.3.005 \5\ at p. 3) For example, some
equipment is designed for storing goods such as wine, candy, and
flowers at temperatures that are held constant, but are higher than the
temperatures typically used in commercial refrigerators for perishable
food storage and merchandising. (Docket No. EERE-2010-BT-STD-0003,
Structural Concepts, No. 1.2.006 at p. 59) Consequently, in the NOPR
DOE issued on November 24, 2010 to propose amendments to the test
procedure for commercial refrigeration equipment (November 2010 NOPR),
DOE proposed provisions for testing commercial refrigeration equipment
that is designed to operate at temperatures higher than 38 [deg]F at
the lowest integrated average product temperature the equipment can
achieve, defined as the lowest possible application product
temperature. 76 FR 71596, 71605. On January 6, 2011, DOE held a public
meeting (January 2011 NOPR public meeting) to discuss the amendments
proposed in the November 2010 NOPR and to provide an opportunity for
interested parties to comment (www1.eere.energy.gov/buildings/appliance_standards/commercial/pdfs/fr_cre_nopr_11_24_2010.pdf).
At the January 2011 NOPR public meeting, DOE received further comments
from interested parties that the proposed provisions for testing
equipment at the lowest application product temperature should be
expanded to include freezers and ice-cream freezers. As an example,
interested parties pointed out that ice storage units are designed to
operate at 20 [deg]F. Equipment that operates at 20 [deg]F would fall
into the freezer temperature category, but interested parties claim
that this specific type of equipment cannot operate at 0 [deg]F, which
is the prescribed rating temperature for freezers in the current test
procedure. (True, No. 19 at p. 191 \6\; Hussmann, No. 19 at pp. 192-93;
Traulsen, No. 19 at p. 194) In response to these comments, DOE is
incorporating a provision in this final rule permitting testing any
equipment that cannot be tested at the prescribed rating temperature to
be tested at the ``lowest application product temperature.''
---------------------------------------------------------------------------
\5\ In the Framework document docket for commercial
refrigeration equipment energy conservation standards, comments were
identified using the following format based on when the comment was
submitted in the rulemaking process. Section 1.1.XXX refers to
Federal Register documents, section 1.2.XXX refers public meeting
support documents, and 1.3.XXX refers to comments submitted by
interested parties. This particular notation refers to a comment (1)
by California Codes and Standards, (2) in document number 5 of the
written comments submitted by interested parties, and (3) appearing
on page 3.
\6\ A notation in this form provides a reference for information
that is in the docket of DOE's rulemaking to develop test procedures
for commercial refrigeration equipment (Docket No. EERE-2010-BT-TP-
0034), which is maintained at www.regulations.gov. This notation
indicates that the statement preceding the reference is document
number 19 in the docket for the commercial refrigeration equipment
test procedure rulemaking, and appears at page 191 of that document.
---------------------------------------------------------------------------
C. Test Procedure Rulemaking Requirements and Impact on Energy
Conservation Standards
Under 42 U.S.C. 6314, EPCA sets forth the criteria and procedures
DOE must follow when prescribing or amending test procedures for
covered equipment.
[[Page 10295]]
EPCA requires that the test procedures promulgated by DOE be reasonably
designed to produce test results that reflect energy efficiency, energy
use, and estimated operating costs of the covered equipment during a
representative average use cycle. EPCA also requires that the test
procedure not be unduly burdensome to conduct. (42 U.S.C. 6314(a)(2))
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 any
amendment. (42 U.S.C. 6314(b)(1)-(2))
EPCA also prescribes that if any rulemaking amends a test
procedure, DOE must determine to what extent, if any, the proposed test
procedure would alter the measured energy efficiency of any covered
equipment as determined under the existing test procedure. (42 U.S.C.
6293(e)(1) and 6314(a)(6)) Further, if DOE determines that the amended
test procedure would alter the measured efficiency of covered
equipment, DOE must amend the applicable energy conservation standard
accordingly. (42 U.S.C. 6293(e)(2) and 6314(a)(6)) DOE recognizes that
the test procedure amendments adopted in this final rule will affect
the measured energy use of some commercial refrigeration equipment.
However, DOE is currently considering amendments to the existing
Federal energy conservation standards for commercial refrigeration
equipment in a concurrent rulemaking, (Docket No. EERE-2010-BT-STD-
0003). DOE will use the test procedure amendments adopted in this final
rule as the basis for standards development in the concurrent energy
conservation standards rulemaking.
Today's rule also fulfills DOE's obligation to periodically review
its test procedures under 42 U.S.C. 6314(a)(1)(A). DOE anticipates that
its next evaluation of this test procedure will occur in a manner
consistent with the timeline set out in this provision.
II. Summary of the Final Rule
DOE is modifying its test procedure for commercial refrigeration
equipment to incorporate current industry-accepted test procedures,
address certain energy efficiency features that are not accounted for
in the current test procedure (i.e., night curtains and light occupancy
sensors and controls), and allow testing of commercial refrigeration
equipment at temperatures other than one of the three currently
specified rating temperatures. Specifically, this test procedure final
rule permits testing of commercial refrigeration equipment at the
lowest application product temperature. This final rule also allows
manufacturers to test equipment at the test conditions prescribed by
NSF/ANSI-7, ``Commercial Refrigerators and Freezers'' (hereafter
referred to as NSF-7), a food safety standard issued by NSF.\7\ The
NSF-7 test conditions represent more stringent rating temperatures and
ambient conditions than the DOE test procedure conditions and are
required by NSF for food safety testing of certain commercial
refrigeration equipment. These test procedure amendments alter the
measured energy efficiency of some covered equipment. As such, DOE is
establishing in this final rule that use of the amended test procedure
for compliance with DOE energy conservation standards or
representations with respect to energy consumption of commercial
refrigeration equipment is required on the compliance date of any
revised energy conservation standards, which are being considered in a
concurrent rulemaking (Docket No. EERE-2010-BT-STD-0003). DOE has added
language to the final test procedure amendments to clarify that
manufacturers are required to use the amended test procedure to
demonstrate compliance with DOE's energy conservation standards, and
for labeling or other representations as to the energy consumption of
any covered equipment, beginning on the compliance date of any final
rule establishing amended energy conservation standards for commercial
refrigeration equipment. Prior to the compliance date of this final
rule, manufacturers will continue to use the existing DOE test
procedure established by the 2006 en masse test procedure final rule
(71 FR 71370 (Dec. 8, 2006)),\8\ and set forth at 10 CFR 431.64, to
show compliance with existing DOE energy conservation standards and for
representations concerning the energy consumption of covered equipment.
---------------------------------------------------------------------------
\7\ NSF International. ``NSF/ASNI 7--2009: Commercial
Refrigerators and Freezers.'' Ann Arbor, MI. https://www.nsf.org/business/food_equipment/standards.asp.
\8\ Hereafter, any reference in this document to the current or
existing DOE test procedure will refer to the test procedure for
commercial refrigeration equipment established by the 2006 en masse
test procedure final rule. 71 FR 71370 (Dec 8, 2006).
---------------------------------------------------------------------------
In the November 2010 NOPR, DOE proposed amendments to the existing
test procedure for commercial refrigeration equipment. 76 FR 71596
(Nov. 24, 2010). DOE held a public meeting on January 6, 2011 to
present the amendments proposed in the November 2010 NOPR and received
comments from interested parties. DOE analyzed the comments received as
a result of the January 2011 NOPR public meeting and incorporated
recommendations, where appropriate, into this test procedure final
rule. The specific test procedure amendments and responses to all
comments DOE received as a result of the November 2010 NOPR are
presented in section III, ``Discussion.''
III. Discussion
Section III.A presents all of the revisions to the DOE test
procedure found at 10 CFR part 431, subpart C, ``Uniform test method
for measuring the energy consumption of commercial refrigerators,
freezers, and refrigerator-freezers,'' incorporated in this final rule,
and discusses the comments received on these topics during the January
2011 NOPR public meeting and the associated comment period. These
revisions include the following:
1. Updated references to industry test procedures to their most
current versions;
2. Inclusion of a method for determining energy savings due to the
use of night curtains on open cases;
3. Inclusion of a calculation for determining energy savings due to
use of lighting occupancy sensors or controls;
4. Inclusion of a provision for testing at lowest application
product temperature; and
5. Provisions allowing testing of equipment at NSF test
temperatures.
At the January 2011 NOPR public meeting and in subsequent written
form, DOE received many comments from stakeholders that did not pertain
to a specific test procedure amendment. In section III.B, DOE provides
responses to comments pertaining to the following subject areas:
1. Equipment scope;
2. Effective date;
3. Preemption;
4. Burden of testing;
5. Alternative refrigerants; and
6. Secondary coolant systems.
A. Amendments to the Test Procedure
Today's final rule incorporates the following changes to the test
procedure for commercial refrigeration equipment in 10 CFR part 431,
subpart C.
1. Updated References to Industry Test Procedures to Their Most Current
Versions
In this final rule, DOE is updating the industry test procedures
referenced in the DOE test procedure for commercial refrigeration
equipment to their most current versions, namely AHRI Standard 1200-
2010 and AHAM Standard HRF-
[[Page 10296]]
1-2008. The current DOE test procedure for commercial refrigeration
equipment, published in the Federal Register on December 8, 2006,
adopted ARI Standard 1200-2006, with additional provisions for testing
ice-cream freezers at -15 [deg]F, as the test procedure used to
establish compliance with the applicable energy conservation standard.
71 FR 71340, 71356-58. Since the publication of the December 2006 en
masse test procedure final rule, AHRI has released an updated version
of its test procedure, AHRI Standard 1200-2010. The updated test
procedure includes both editorial and technical changes to (1) the
equipment class nomenclature used within the test procedure; (2) the
integrated average rating temperature for ice-cream freezers; and (3)
the method of normalizing and reporting units for equipment energy
consumption. These changes align the AHRI test procedure with the
nomenclature and method adopted by DOE in the January 2009 final rule.
74 FR 1092 (Jan. 9, 2009); 10 CFR 431.66. AHRI Standard 1200-2010 is
also the test procedure currently used in the commercial refrigeration
industry. In the November 2010 NOPR, DOE proposed to incorporate by
reference AHRI 1200-2010 in the DOE test procedure. 75 FR 71602 (Nov.
24, 2010).
The current DOE test procedure also references AHAM HRF-1-2004 as
the protocol for determining refrigerated compartment volume. AHAM has
also updated its Standard HRF-1-2004 to newer version AHAM HRF-1-2008,
which makes editorial changes including reorganizing some sections for
greater simplicity and usability. AHRI 1200-2010 also references AHAM
HRF-1-2008. For consistency, in the November 2010 NOPR, DOE proposed to
incorporate by reference the more recent AHAM HRF-1-2008 in the test
procedure for measuring refrigerated compartment volume. 75 FR 71602
(Nov. 24, 2010).
In commenting on the November 2010 NOPR, AHRI, the American Council
for an Energy-Efficient Economy (ACEEE), and the Northwest Energy
Efficiency Alliance (NEEA) all supported DOE's proposals. (AHRI, No. 15
at p. 2; ACEEE, No. 12 at p. 2; NEEA, No. 8 at p. 3) DOE did not
receive any dissenting comments. DOE believes AHRI 1200-2010 and AHAM
Standard HRF-1-2008 are the most up-to-date and commonly used test
procedures for commercial refrigeration in the industry. DOE agrees
with interested parties that these test procedures are appropriate to
characterize the energy consumption of all commercial refrigeration
equipment included within the scope of this rulemaking. Thus, in this
final rule, DOE is updating the industry test procedures referenced in
the DOE test procedure for commercial refrigeration equipment to their
most current versions, AHRI Standard 1200-2010 and AHAM Standard HRF-1-
2008.
2. Inclusion of a Method for Determining Reduced Energy Consumption Due
to the Use of Night Curtains on Open Cases
DOE's current test procedure does not account for potential
decreased energy consumption resulting from the use of night curtains
on commercial refrigeration equipment. Night curtains are devices made
of an insulating material, typically insulated aluminum fabric,
designed to be pulled down over the open front of the case (similar to
the way a window shade operates) when the merchandizing establishment
is either closed or the customer traffic is significantly decreased.
The insulating shield, or night curtain, decreases infiltration by
preventing the mixing of the cool air inside the case with the
relatively warm, humid air in the store interior. It also reduces
conductive and radiative heat transfer into the case. Night curtains
reduce compressor loads and defrost cycles, which can decrease the
total energy use of the commercial refrigeration equipment. A 1997
study by the Southern California Edison Refrigeration Technology and
Test Center found that, when used for 6 hours per day, night curtains
reduce total energy use of the case by approximately 8 percent.\9\
---------------------------------------------------------------------------
\9\ Southern California Edison, Refrigeration and Technology and
Test Center, Energy Efficiency Division. Effects of the Low
Emissivity Shields on Performance and Power Use of a Refrigerated
Display Case. August 1997. Irwindale, CA. www.econofrost.com/acrobat/sce_report_long.pdf.
---------------------------------------------------------------------------
In the November 2010 NOPR, DOE proposed adopting a standardized
physical test method to allow manufacturers to account for the possible
energy reduction associated with night curtains installed on open
cases. DOE chose a physical test because it accurately captures
differences in energy consumption as a function of similar technologies
and case dimensions. 75 FR 71602-03 (Nov. 24, 2010). It is important to
capture the different impacts on energy consumption among different
night curtain designs because of the significant performance
disparities that can exist. For example, night curtains made of low-
emissivity materials, such as aluminum, decrease the radiative losses
from the case and therefore are much more effective at reducing heat
loss than night curtains made of plastic, linoleum, or other non-
reflective materials. In addition, each night curtain may reduce energy
consumption differently, depending on its particular insulating
characteristics and design. Case dimensions, air curtain performance,
and base infiltration load also impact night curtain performance. A
physical test also accurately captures differences in the energy
conservation performance of night curtains as a function of case
dimension or night curtain design.
In the November 2010 NOPR, DOE proposed using a physical test
method similar to section 7.2 in ASHRAE Standard 72-2005, ``Door-
Opening Requirements,'' which reads as follows:
Night Curtain Requirements. For open display cases sold with
night curtains installed, the night curtain shall be employed
according to manufacturer instructions for a total of 6 hours, 3
hours after the start of a defrost period. Upon the completion of
the 6-hour period, the night curtain shall be raised until the
completion of the 24-hour test period.
DOE further clarified that the test procedure for night curtains
would, if adopted, apply only to cases sold with night curtains
installed. 75 FR 71602-03 (Nov. 24, 2010). Following publication of the
November 2010 NOPR, DOE received comments regarding the representative
use of night curtains, the types of cases on which night curtains can
be used, and the cost effectiveness of night curtains. These comments
and DOE's responses are presented in the following sections.
a. Representative Use
While interested parties generally agreed with the proposed test
procedure for night curtains, some interested parties expressed
concerns regarding the way in which night curtains would be treated in
the standards analysis, including the concern that the potential
treatment might not be representative of actual use. Zero Zone stated
that, while it agreed with the proposed test method for night curtains,
it did not believe that night curtains should be allowed to be used to
reduce measured energy consumption in the DOE test procedure because
installing them does not necessarily mean that end users will deploy
them. In addition, Zero Zone stated that 24-hour stores cannot use
night curtains, and that night curtains may have a short lifetime.
(Zero Zone, No. 16 at p. 1) AHRI supported providing a method to
account for the reduced energy consumption of night curtains, but
questioned the origin of DOE's 6-hour assumption. (AHRI, No. 19 at pp.
72-73) Earthjustice stated that,
[[Page 10297]]
in accordance with the provisions of EPCA, which guide DOE's
development of test procedures and call for the test procedures to
reflect ``representative use,'' DOE should account for the
inapplicability of night curtains to 24-hour retailers; the likelihood
of end users actually deploying night curtains; and the relative
lifetime of night curtains and likelihood of users replacing broken
ones. Earthjustice added that, while CRE lifetimes span 10 to 15 years
according to DOE's own figures, research has estimated a 7-year
lifetime for night curtains. (Earthjustice, No. 11 at p. 1) California
Codes and Standards agreed that night curtains have significantly
shorter lifetimes than most of the other components that comprise an
open display case, and suggested that any credit given to night
curtains should be discounted because their effective life is short.
(California Codes and Standards, No. 13 at p. 3) The Natural Resources
Defense Council (NRDC) agreed with DOE's proposal, but reiterated
Earthjustice's concern that night curtains are not reliably used in the
field and have shorter lifetimes than the refrigerated cases. (NRDC,
No. 14 at p. 2) ACEEE recommended that DOE base its treatment of night
curtains on underlying data that present a realistic estimate of actual
patterns of field use, the fraction of users who actually employ them,
and the relative lifetimes of these features. (ACEEE, No. 12 at p. 4)
California Codes and Standards expressed concern that DOE's treatment
of night curtains might not be representative of actual in-field usage
and thus might overstate the savings derived from night curtains. Such
use, the comment stated, is dependent both on the specific application
and on human (employee) behavior. (California Codes and Standards, No.
13 at pp. 2-3) NEEA commented that it believes the use of night
curtains for compliance testing could grant too much credit to a
feature that has questionable in-field value, which would undermine the
statutory requirement that the test procedure reasonably approximate
actual use. In addition, NEEA commented that night curtains would have
negligible impacts during periods of peak demand, and that if
manufacturers preferred night curtains to features that would reduce
energy consumption during peak demand periods, the incorporation of
night curtains would not be advantageous. Because of this, NEEA agreed
with DOE's proposed 6-hour cycle of use for night curtains in the test
procedure when a case is tested with night curtains because it is more
conservative than an 8-hour cycle. (NEEA, No. 8 at p. 4)
In response to interested parties' comments that the intended use
of a night curtain does not necessarily represent actual use in the
field, DOE acknowledges that actual use of night curtains may be
variable in the field. However, night curtains are an available
technology for reducing energy consumption in commercial refrigeration
equipment, and DOE believes that including night curtains in its test
procedure provides manufacturers with a mechanism for estimating the
energy consumption impacts of this technology and provides a more
accurate representation of how those units may operate when installed.
The test procedure adopted in this final rule is consistent across all
cases sold with night curtains, regardless of their anticipated use.
With regard to Earthjustice's concern with respect to the use of night
curtains in 24-hour stores, DOE is not mandating the use of night
curtains, but rather is simply accounting for the use of night curtains
in the 24-hour test procedure. In addition, DOE notes that night
curtains may in fact be used in 24-hour stores during periods of low
use, although DOE concedes that this is less common.
In response to AHRI's question regarding why DOE proposed 6 hours
as the time period for night curtains to be implemented, DOE believes
that 6 hours conservatively represents the amount of time a night
curtain would be drawn in a typical, non-24-hour store, when accounting
for stocking and the fact that not all night curtains can be deployed
at once. In addition, 6 hours is consistent with all field data and
studies that DOE has identified.10 11 12
---------------------------------------------------------------------------
\10\ Southern California Edison, Refrigeration and Technology
and Test Center, Energy Efficiency Division. Effects of the Low
Emissivity Shields on Performance and Power Use of a Refrigerated
Display Case. August 1997. Irwindale, CA. www.econofrost.com/acrobat/sce_report_long.pdf.
\11\ Faramarzi, R. and Woodworth-Szieper, M. Effects of Low-E
Shields on the Performance and Power Use of a Refrigerated Display
Case. ASHRAE Transactions. 1999. 105(1).
\12\ Portland Energy Conservation, Inc. Query of Database of
GrocerySmart Data. Portland, OR. Received October 18, 2011. Last
viewed July 23, 2011.
---------------------------------------------------------------------------
In response to the comments regarding the expected life of a night
curtain, DOE understands that a night curtain may have a shorter life
than a display case. However, DOE accounts for repair and replacement
costs in the energy conservation standards analyses and believes these
issues are better addressed in that rulemaking. DOE believes a 6-hour
period of use adequately represents the anticipated use of a night
curtain, while DOE is also cognizant of potential reductions in energy
savings due to application and field use issues. DOE will discuss
treatment of night curtains further in the associated energy
conservation standards rulemaking and its impact on the energy use of
commercial refrigeration equipment (Docket No. EERE-2010-BT-STD-0003).
b. Applicable Equipment
Southern Store Fixtures stated that night curtains can only be
practicably used on vertical open display cases, and further clarified
that on semi-vertical display cases the night curtain can interfere
with the air flow in the case. (Southern Store Fixtures, No. 19 at p.
135) True Manufacturing (True) responded that semi-vertical night
curtains do exist. (True, No. 19 at p. 137) Southern Store Fixtures
also commented that an air curtain, which blows air across the front of
an open case to reduce infiltration, can be temporarily used to reduce
infiltration and heat loss to the case, and inquired whether an air
curtain would meet DOE's proposed definition of a night curtain.
(Southern Store Fixtures, No. 19 at p. 136) NEEA supported DOE's
proposed definition of night curtain, provided the definition would be
applied only to open cases of all sorts. NEEA also stated that, while
it is not opposed to the inclusion of air curtains in the definition of
``night curtain,'' it has seen no data to show that air curtains are
used to reduce infiltration and heat loss or that they would save
energy. However, NEEA saw no reason to exclude air curtains from the
definition of night curtain. (NEEA, No. 8 at pp. 3-4)
Zero Zone requested clarification regarding whether the night
curtain provision could be applied to cases with doors that also have
night curtains installed (Zero Zone, No. 19 at p. 145), and offered
that night curtains could provide benefits for doored cases. (Zero
Zone, No. 16 at p. 1) True stated that it had seen night curtains
implemented on doored cases and that this does save a minimal amount of
energy, but that these minor savings did not justify consideration of
night curtains in the DOE test procedure. (True, No. 19 at pp. 146-47)
Zero Zone commented that DOE proposed in the test procedure NOPR that
automatic controls be required on lighting in order to meet DOE's
proposed definition of ``lighting occupancy sensor'' or ``lighting
control.'' Given this proposal, Zero Zone questioned why automatic
night curtains would not then be required to meet DOE's definition of
``night
[[Page 10298]]
curtain.'' (Zero Zone, No. 16 at p. 1) Southern Store Fixtures
commented that the provision for starting the night curtain test 3
hours after a defrost period creates a problem for cases that are on a
timed defrost and scheduled to defrost every 2 hours. (Southern Store
Fixtures, No. 19 at p. 142) Southern Store Fixtures added that defrost
occurs more frequently for some open cases. In response to Southern
Store Fixtures, ACEEE stated that, if the 75/55 rating condition \13\
does not cause frost accumulation sufficient to require defrost after 3
hours, it would oppose any special consideration for equipment without
adaptive defrost. The test procedure, ACEEE commented, should not
shelter legacy technologies when more modern alternatives are
available. (ACEEE, No. 12 at pp. 5-6)
---------------------------------------------------------------------------
\13\ ``75/55 rating condition'' describes the standard ambient
temperature and relative humidity requirements for testing
commercial refrigeration equipment in the DOE test procedure.
Specifically, the DOE test procedure requires equipment be tested at
75 [deg]F and 55 percent relative humidity.
---------------------------------------------------------------------------
In response to interested parties' comments on the use of night
curtains on doored cases, it is DOE's understanding that night curtains
can be applied to all types of open cases (vertical, semi-vertical, and
horizontal) and that night curtains are most effective and commonly
used on open cases, rather than on doored cases. DOE was not able to
identify any publicly available data regarding the use of night
curtains on doored cases. Lacking a sound technical basis for including
night curtains on doored cases, DOE is hesitant to expand the
definition of night curtain to explicitly include doored cases at this
time. DOE also agrees with True in that use of night curtains on doored
cases will not significantly impact the daily energy consumption of the
display case as measured by the DOE test procedure. Therefore, DOE is
not extending the night curtain test procedure to include night curtain
testing on cases with doors in this final rule. DOE will continue to
monitor the prevalence and energy saving potential of these
technologies in the market and may address them in a future rulemaking.
In response to Southern Store Fixtures' comment regarding air
curtains, the definition of a night curtain does not necessarily
exclude air curtains because the definition does not specify a material
or construction. DOE is defining a night curtain as a technology that
is used temporarily to reduce infiltration and heat loss on commercial
refrigeration equipment, without additional qualifiers. In response to
Zero Zone's comment regarding automatic night curtains, both automatic
and manual night curtains are included in this definition, as well as
air curtains, provided that they are temporarily deployed to decrease
air exchange and heat transfer between the refrigerated case and the
surrounding environment. To accommodate all defrost cycles, the test
procedure requires the night curtain to be drawn 3 hours after the
first defrost cycle. This change is consistent with updates that ASHRAE
is considering making to the ASHRAE Standard 72 requirements for door
openings. This addresses Southern Store fixtures concern regarding
cases which may defrost every 2 hours and would never reach a time
period ``3 hours after defrost,'' since those cases now may select a
defrost cycle as the ``first'' to begin the test and then initiate the
night curtain test 3 hours following the first defrost.
c. Cost Effectiveness
In response to DOE's proposal for testing night curtains, Southern
Store Fixtures commented that DOE should consider the cost
effectiveness of night curtains and noted that the analysis supporting
the development of State of California's Title 24, ``California's
Energy Efficiency Standards for Residential and Nonresidential
Buildings,'' \14\ recently showed that using night curtains is not cost
effective. (Southern Store Fixtures, No. 19 at p. 70) AHRI did not
object to the inclusion of testing provisions for night curtains, but
did not believe the installation of night curtains is a cost-effective
measure to save a significant amount of energy. AHRI referenced a study
conducted by California Codes and Standards \15\ which examined the
cost effectiveness of night curtains and suggested that DOE review this
study as well. (AHRI, No. 15 at p. 2) California Codes and Standards
responded that while the State of California determined that night
curtains were not cost effective, the analysis did not include the
potential for reduction in radiative heat losses, which could be
substantial. (California Codes and Standards, No. 19 at pp. 74-75) AHRI
also stated that night curtains should not be mandated. (AHRI, No. 19
at pp. 72-73)
---------------------------------------------------------------------------
\14\ Title 24, California Code of Regulations, Part 6--
``Efficiency Standards for Residential and Nonresidential
Buildings.'' April 23, 2008.
\15\ California Utilities Statewide Codes and Standards Team.
Working Draft Measure Information Template Supermarket
Refrigeration: 2013 California Building Energy Efficiency Standards.
April 2011. www.energy.ca.gov/title24/2013standards/prerulemaking/documents/2011-04-18_workshop/review/2013_CASE_NR15_Commercial_Refrigeration_working_draft_4.13.2011.pdf.
---------------------------------------------------------------------------
DOE acknowledges interested parties' concerns regarding the cost
effectiveness of night curtains. DOE will perform a cost-effectiveness
analysis as part of the process to consider amended energy conservation
standards for commercial refrigeration equipment. Additionally, DOE's
energy conservation standards are performance standards, and neither
night curtains nor any other specific technology will be mandated.
Night curtains will be treated as a design that manufacturers could use
to reduce energy consumption in the energy conservation standards
analysis. The comments described above pertain mainly to energy
conservation standards and will be addressed in more detail in that
rulemaking.
3. Inclusion of a Calculation for Determining Reduced Energy
Consumption Due to Use of Lighting Occupancy Sensors or Controls
The current DOE test procedure does not account for the potential
reduction in energy consumption resulting from the use of lighting
occupancy sensors and scheduled controls. The potential for decreased
energy use due to the use of occupancy-based sensors or schedule-based
controls varies in the field due to differing environmental and
operating conditions. However, studies, including a demonstration
project conducted through the DOE Solid State Lighting (SSL) Technology
Demonstration GATEWAY program,\16\ have shown that lighting occupancy
sensors or controls could reduce the total energy use of a typical
refrigerated merchandising unit operating in a grocery store by up to
40 percent.\17\
---------------------------------------------------------------------------
\16\ DOE's Solid State Lighting (SSL) Technology Demonstration
GATEWAY program features high-performance SSL products for general
illumination in a variety of exterior and interior applications.
Eligible products are installed at demonstration host sites, where
their performance can be evaluated. Performance measures include
energy consumption, light output/distribution, and installation/
interface/control issues. Qualitative performance is investigated
via feedback surveys of the relevant user communities. More
information on the program is available at www1.eere.energy.gov/buildings/ssl/gatewaydemos.html.
\17\ U.S. Department of Energy. Demonstration Assessment of
Light-Emitting Diode (LED) Freezer Case Lighting. October 2009.
Prepared by Pacific Northwest National Laboratory for the U.S. DOE
Solid State Lighting Technology Demonstration GATEWAY Program.
Washington, DC. https://apps1.eere.energy.gov/buildings/publications/pdfs/ssl/gateway_freezer-case.pdf.
---------------------------------------------------------------------------
In the November 2010 NOPR, DOE proposed a calculation method to
account for the reduced energy consumption due to the use of lighting
[[Page 10299]]
occupancy sensors or controls. The proposed lighting occupancy sensor
test procedure consisted of three primary calculations: (1) Calculation
of direct energy use of lighting with occupancy sensors or scheduled
controls installed; (2) calculation of reduced refrigeration load when
energy use of lights located within the refrigerated compartment is
decreased; and (3) calculation of the adjusted daily energy consumption
based on the decreased lighting energy use and decreased compressor
energy use. These calculations require several default assumptions,
which would be used uniformly for all cases employing this test
procedure. These assumptions designate values for the length of time
lighting is off or dimmed due to lighting occupancy sensors or
scheduled controls, the energy efficiency ratio (EER) \18\ of the
compressor, and the portion of energy produced from the lights that
becomes heat in the case and increases the refrigeration load. 75 FR
71602-05 (Nov. 24, 2010).
---------------------------------------------------------------------------
\18\ The EER of a particular cooling device is a measure of its
relative efficiency, expressed as the ratio of the cooling output to
the energy consumed.
---------------------------------------------------------------------------
At the January 2011 NOPR public meeting, DOE presented its proposal
for treatment of lighting occupancy sensors and scheduled controls. DOE
received comments on the definitions DOE proposed, the scope of
technology covered, the calculation of energy savings, and optional
physical testing. As part of the associated CRE energy conservation
standards rulemaking, DOE also received comments pertaining to the
proposed test procedure provision for lighting occupancy sensors and
scheduled lighting controls. The comments DOE received on these issues,
as well as DOE's responses, are presented in the following sections.
a. Definition of Lighting Control and Lighting Occupancy Sensor
In the November 2010 NOPR, DOE proposed to define ``lighting
control'' and ``lighting occupancy sensor'' as follows:
Lighting control means an electronic device which automatically
adjusts the lighting in a display case at scheduled times throughout
the day.
Lighting occupancy sensor means an electronic device which uses
passive infrared, ultrasonic, or other motion-sensing technology to
detect the presence of a customer or employee, allowing the lights
within the equipment to be turned off or dimmed when no motion is
detected in the sensor's coverage area.
75 FR 71611 (Nov. 24, 2010).
In response, NEEA agreed with DOE's proposed definitions for
lighting controls, but stated that the term ``electronic'' seemed
superfluous. (NEEA, No. 8 at p. 4) Coca-Cola Company (Coca-Cola)
suggested that the term ``automatic'' or ``automatically'' be added to
the definitions of lighting occupancy sensor and lighting controls.
(Coca-Cola, No. 19 at p. 157) ACEEE agreed with NEEA that the term
``electronic'' should be removed from the definition of lighting
control and occupancy sensor. Additionally, ACEEE added that the
definition of lighting control should not be limited to scheduled
times, as such a definition excludes the possibility of accounting for
controllers that respond to ambient lighting conditions. (ACEEE, No. 12
at p. 4) ACEEE added that, although such technologies have not been
developed yet, DOE has allowed for the possibility of other, more
advanced technologies in other rulemakings by marking some technologies
``reserved.'' ACEEE also commented that it was partially DOE's
responsibility to investigate these types of potentially attractive
technology options that are not yet in the marketplace, and that it was
important to ensure that any potential new technologies could be tested
using the DOE test procedure. (ACEEE, No. 19 at pp. 181-82) True
responded that the test procedure and energy conservation standards do
not prevent manufacturers from innovating new technologies, but rather
set a minimum standard that manufacturers must meet. True also
commented that the desired lighting level in cases can differ based on
a number of variables in addition to ambient lighting level (for
example, based on marketing purposes). (True, No. 19 at pp. 183 and
186)
Southern Store Fixtures commented that DOE should consider the
environmental impact of producing lighting occupancy sensors and
controls and questioned their energy savings in the field. (Southern
Store Fixtures, No. 19 at p. 153)
DOE agrees with interested parties that the term ``electronic'' may
be superfluous and is removing the term from the definitions for
``lighting occupancy sensor'' and ``scheduled lighting control''
adopted in this final rule. In addition, DOE agrees with Coca-Cola that
the term ``automatic'' more accurately describes the function of the
devices described. DOE will also define ``scheduled lighting control''
instead of ``lighting control,'' as this term is more descriptive of
the device being defined.
With respect to lighting controls that respond to external factors
other than motion or physical presence, such as ambient light, DOE does
not believe any such technologies are widely used and is not aware of
any data regarding their efficacy. While these factors do not prevent
DOE from including the potential for such technologies in the
definition of lighting controls or in a new definition, the
calculations in the test method for lighting occupancy sensors and
controls were based on the potential reduction in energy consumption
associated specifically with lighting occupancy sensors and schedule-
based controls. DOE believes that applying these same ``time off'' or
``time dimmed'' assumptions to other technologies may not be
representative of their actual performance and would not be
appropriate. DOE has not been able to identify any data related to the
energy savings of lighting sensors that adjust case lighting based on
ambient lighting. Because DOE is currently using a calculation method
based on the estimated hours a lighting sensor will dim or turn off
lights to calculate lighting energy savings, it would be difficult to
incorporate provisions for other types of sensors without data
regarding their anticipated or realized efficacy. In the absence of
such data, it is difficult for DOE to estimate a representative energy
savings from ambient light sensors. Therefore, DOE does not intend to
include provisions for ambient light sensors or other sensor
technologies in the definition of lighting sensors and/or controls.
With respect to Southern Store Fixtures' comment that DOE should
assess the environmental impact of manufacturing lighting occupancy
sensors and weigh the impact against the achieved savings, DOE believes
lighting occupancy sensors have proven effective over their lifetime
and can save energy when installed on commercial refrigeration
equipment. DOE will assess the environmental impact of lighting
occupancy sensors in the energy conservation standards rulemaking
(Docket No. EERE-2010-BT-STD-0003). However, DOE notes that life-cycle
environmental impacts of equipment manufacture and disposal are
typically outside the scope of the environmental impact analysis
performed in any standards rulemaking.
b. Manual Controls
In the November 2010 NOPR, DOE's definitions of ``lighting
control'' and ``lighting occupancy sensor'' both dealt exclusively with
automatic technologies. 75 FR 71611 (Nov. 24, 2011). At January 2011
NOPR public meeting, AHRI and Zero Zone commented that it was
inconsistent for DOE to allow night curtains that must be deployed
manually to achieve energy savings in the DOE test procedure, but not
to allow manual light switches to
[[Page 10300]]
receive credit for energy savings. (AHRI, No. 19 at p. 152; Zero Zone,
No. 19 at p. 160)
While DOE acknowledges that manual switches can be used to dim or
turn off case lighting to save energy when a store is closed, DOE is
not aware of any data that substantiate their use. Because DOE does not
have any data on which to base the treatment of manual switches,
including a provision for manual light switches in the test procedure
would be very speculative. In addition, DOE has observed that most
cases spanning the full range of efficiencies currently available on
the market already include manual light switches installed. In
contrast, night curtains and other automatic lighting controls
technologies are sold as energy efficiency features incorporated into
only higher efficiency commercial refrigeration equipment. Further,
manual switches have been installed on cases for some time as a utility
feature, to turn off lights when replacing light bulbs for example,
rather than as an energy saving feature.
Lacking data that substantiate the use of manual switches to save
additional energy, and given the fact that manual light switches are a
baseline technology and are not installed to produce energy savings,
DOE is not including manual switches in the definition of a lighting
control technology.
c. Remote Lighting Controls
In the November 2010 NOPR, DOE proposed that remote lighting
control systems would not receive credit for any potential energy
savings in the DOE test procedure. 75 FR 71605 (Nov. 24, 2010).
California Codes and Standards commented that some scheduled lighting
controls are external to the case, and inquired whether cases in which
the controls were installed external to the case would receive credit
under the proposed test procedure. (California Codes and Standards, No.
13 at p. 5) California Codes and Standards suggested that DOE clearly
state that the credit for time switch control would only apply when the
switch is on-board the display case. (California Codes and Standards,
No. 19 at p. 187) As part of the rulemaking for the CRE energy
conservation standards (Docket No. EERE-2010-BT-STD-0003), DOE
published the Notice of Public Meeting and availability of the CRE
Preliminary Analysis Technical Support Document (76 FR 17573 (March 30,
2011)) and held a public meeting on April 19, 2011 at DOE headquarters
in Washington, DC During the commercial refrigeration equipment
preliminary analysis public meeting (April 2011 Preliminary Analysis
public meeting) and in subsequent written comments, numerous interested
parties stated that many cases were installed with remote lighting
sensors or controls that were operated at the aisle or store level.
(Docket No. EERE-2010-BT-STD-0003, Southern Store Fixtures, No. 31 at
pp. 190-91, 194; Zero Zone, No. 31 at p. 196; California Investor Owned
Utilities,\19\ No. 42 at p. 4) NEEA responded that cases wired uniquely
to receive a remote energy management system should receive credit in
the DOE test procedure. (Docket No. EERE-2010-BT-STD-0003, NEEA, No. 31
at p. 195)
---------------------------------------------------------------------------
\19\ ``California Investor Owned Utilities'' refers here to a
joint comment submitted by Southern California Edison, Pacific Gas
and Electric Company, Southern California Gas Company, and San Diego
Gas and Electric in Docket No. EERE-2010-BT-STD-0003.
---------------------------------------------------------------------------
There are several ways in which a manufacturer, refrigeration
contractor, or store owner can implement lighting controls, including
individual case controls, single controls serving an entire case
lineup, and storewide energy management systems. Including remote
lighting controls in the test procedure could inadvertently set a
precedent for deeming remote energy management technologies to be part
of the covered equipment and allocating energy savings gained by these
external devices to associated pieces of equipment. For example, a
remote lighting control system may control systems other than
commercial refrigeration equipment, and such systems are typically not
sold with a piece of commercial refrigeration equipment. Cases set up
to interact with these remote control systems have a dedicated circuit
for lights so that the lights can be controlled separately from the
rest of the case. However, this lighting circuit configuration does not
inherently save energy and must be paired with an energy management
control system. These energy management systems are sold separately
from the piece of commercial refrigeration equipment, may be produced
by a different manufacturer from the one that produces the case, and
are not integral to the commercial refrigeration equipment.
DOE acknowledges that remote lighting controls do save energy and
may be the more commonly used technology to dim or turn off lights in
the field. However, energy consumption for a piece of commercial
refrigeration equipment must be determined using the DOE test procedure
on a representative unit, as shipped from the point of manufacture. 76
FR 12422, 12453 (March 7, 2011) Because a remote energy management
system is not part of the piece of equipment as shipped from the
manufacturer, but rather it is a separate piece of equipment that may
be supplied by a separate manufacturer, remote energy management
controls will not be considered in this test procedure final rule.
d. Representative Energy Savings
In addition to conserving energy directly through decreased
lighting electrical load, occupancy sensors also decrease the heat load
from lights that are located inside the refrigerated space of
refrigeration equipment. Therefore, as part of the calculation method
for lighting occupancy sensors and controls, DOE proposed a calculation
method to account for these energy impacts in the November 2010 NOPR.
75 FR 71602-05 (Nov. 24, 2010). This calculation, as proposed,
quantifies the reduced compressor energy use resulting from lighting
occupancy sensors and scheduled controls and relies on a table of fixed
compressor EERs, as described below.
[GRAPHIC] [TIFF OMITTED] TR21FE12.000
Where:
CECA= alternate compressor energy consumption (kilowatt-hours);
LECsc = lighting energy consumption of internal case lights with
lighting occupancy sensors and controls deployed (kilowatt-hours);
Pli = rated power of lights when they are fully on (watts);
tl = time lighting would be on without lighting occupancy sensors or
controls (24 hours); and
EER = energy efficiency ratio from Table 1 in AHRI Standard 1200-
2010 for remote condensing equipment and the values shown in Table
III.1 of this document for self-contained equipment (British thermal
units per watt (Btu/W)).
[[Page 10301]]
Table III.1--EER for Self-Contained Commercial Refrigerated Display
Merchandisers and Storage Cabinets
------------------------------------------------------------------------
EER Btu/
Operating temperature class W
------------------------------------------------------------------------
Medium....................................................... 11.26
Low.......................................................... 7.14
Ice Cream.................................................... 4.80
------------------------------------------------------------------------
Notes:
1. EER values for operating temperature classes are calculated based on
the average EER value of all equipment in that class, analyzed as part
of the previous energy conservation standards rulemaking for
commercial refrigeration equipment (2009 rulemaking). 74 FR 1092 (Jan.
9, 2009). This does not include equipment for which standards were set
by Congress in EPACT 2005 (VCT, VCS, HCT, HCS, and SOC at medium (M)
and low (L) temperatures) or classes for which standards were set
using extension multipliers in the 2009 rulemaking (VOP.SC.L,
SVO.SC.L, VOP.SC.I, SVO.SC.I, HZO.SC.I, VOP.SC.I, SVO.SC.I, HZO.SC.I,
HCS.SC.I, SOC.SC.I). This nomenclature is described in the 2009
rulemaking. 74 FR1093.
2. These values only represent compressor EERs and do not include
condenser fan energy use.
Southern Store Fixtures stated that assigning average values for
the EER in the calculation of energy reduction due to lighting
occupancy sensors would penalize manufacturers that have more efficient
compressors. (Southern Store Fixtures, No. 19 at p. 170) NEEA stated
that not including the condenser fan energy consumption in the EER
value creates an over-credit for any heat load that is not imposed on
the case, and agreed with Southern Store Fixtures that this approach
gives more credit to less efficient compressors. (NEEA, No. 19 at p.
171) NEEA further stated that, while it has no issue with the direct
savings from lighting controls as proposed in the test procedure, it
does not support the proposed method for calculating indirect energy
savings. First, according to NEEA, DOE should account for condenser fan
energy use. Second, NEEA disagreed with the compressor EER values in
the November 2010 NOPR because the values are carried out to two
decimal places, which NEEA described as unnecessary. Third, NEEA stated
that light-emitting diode lighting would lessen the impact on
compressor loads. Fourth, NEEA disagreed with the idea that a single
factor be used for discounting lighting heat load, instead suggesting
that this factor varies by case type. (NEEA, No. 8 at p. 5) California
Codes and Standards also suggested that DOE research and incorporate
different multiplicative factors for alternate compressor energy
consumption for open versus closed cases, because a lower factor may be
appropriate for open cases. (California Codes and Standards, No. 13 at
pp. 4-5)
With respect to its compressor EER values, DOE believes that the
same values can be used for all self-contained equipment because
compressor efficiency is primarily a function of compressor design for
a given combination of load, product temperature, and ambient
conditions, rather than a specific case geometry. In addition, as a
precedent, Table 1 in AHRI 1200-2010 provides EER values for remote
condensing equipment that are not specifically directed toward either
open or closed refrigerated cases. DOE recognizes that the EER values
presented in the November 2010 NOPR are not exact quantitative
representations of specific compressor designs on the market, and that
compressor performance will vary based on compressor manufacturer and
model, operating conditions, and the overall design of the specific
refrigeration system in which the compressor is used. However, DOE
believes that the EER values it proposed are sound representations of
default compressor performance available in the marketplace today that,
when applied equally to all equipment, will yield a consistent and
repeatable result. DOE acknowledges that two decimal points is not
appropriate for these default values and has revised them to the
nearest whole number for this final rule. (See the amendments to 10 CFR
431.64 (b)(2)(iii), following this preamble).
In response to comments that DOE did not account for condenser fan
energy consumption, DOE assumed the compressor fan runs continuously in
self-contained equipment in the calculations for reduced compressor
energy consumption resulting from the use of lighting occupancy sensors
and scheduled controls. This assumption may slightly underestimate the
savings in some cases, but DOE believes it adequately represents
expected energy savings in the field. DOE agrees that it is important
that the default compressor EER values not exaggerate energy savings or
disincentivize energy efficiency in compressors. However, because these
values are applied to all commercial refrigeration equipment,
regardless of actual performance, DOE does not believe the default
values will affect or motivate compressor selection or design, as they
will produce comparable results across all systems to which they are
applied.
Because DOE is allowing the option of a physical test to determine
savings from lighting occupancy sensors and controls (see section
III.A.3.e), DOE must be cognizant of the fact that the calculated
reduction in refrigeration load and associated indirect energy savings
are comparable to those that would be measured in the physical test. In
revising the EER values, DOE has also attempted to ensure that the
default values do not result in greater savings than would be achieved
if a case with an efficient compressor were tested. Because the
calculation does not account for reduced compressor fan power or heat
leakage from the compressor into the case, DOE believes that the EER
values will not significantly overestimate indirect lighting energy
savings. In addition, because the physical test method is optional, a
manufacturer may always choose to use the calculation method, which is
consistent across all equipment.
e. Optional Physical Test
In the November 2010 NOPR, DOE proposed a calculation method to
account for the energy savings due to the use of lighting occupancy
sensors or controls. DOE proposed a calculation method because it
believed it would be representative, consistent, and relatively less
burdensome for manufacturers compared to a physical test. In this
assessment, DOE accounted for the fact that manufacturers may need to
conduct tests with lights on for the duration of the test for other
programs, for example for ENERGY STAR[supreg] \20\ certification. 75 FR
71600, 71605 (Nov. 24, 2010).
---------------------------------------------------------------------------
\20\ ENERGY STAR is a joint program of the U.S. Environmental
Protection Agency and DOE that establishes a voluntary rating,
certification, and labeling program for highly energy efficient
consumer products and commercial equipment. Information on the
program is available at www.energystar.gov/index.cfm?c=home.index.
---------------------------------------------------------------------------
At the January 2011 public meeting and in subsequent written
comments, Coca-Cola, NEEA, and California Codes and Standards suggested
that DOE allow optional empirical testing for the energy reduction
associated with lighting controls. (Coca-Cola, No. 19 at p. 172; NEEA,
No. 19 at p. 175; California Codes and Standards, No. 13 at p. 5)
Earthjustice stated that the method proposed in the November 2010 NOPR
ignores condenser fan energy use, underestimates compressor EER, and
uses a fixed discount factor for the lighting heat load that, in
actuality, would vary by unit. Earthjustice further stated that testing
with lighting off or dimmed would resolve this issue without adding
additional burden. (Earthjustice, No. 11 at p. 2) NEEA agreed with
Earthjustice and commented that actual testing of lighting controls
would be a superior way to account for their impacts, and
[[Page 10302]]
that DOE should either require testing or make it optional rather than
relying solely on calculations. (NEEA, No. 8 at pp. 5-6)
ACEEE commented that alternative lighting methods, for example
fiber bundles, could be developed, and that the DOE test procedure
should provide a way for lighting vendors to capture the energy savings
of new, innovative lighting technologies so that they can promote the
technology to case manufacturers. (ACEEE, No. 19 at p. 173)
Hussmann Corporation (Hussmann) cautioned that the DOE test
procedure should be cognizant of the repeatability of test results
using a physical test method, specifically when units are tested at
third-party laboratories. (Hussmann, No. 19 at p. 175) Traulsen
commented that physically testing the energy reduction of lighting
occupancy sensors and scheduled controls could be done with a $20 to
$60 timing device, which translates to approximately $100 when
accounting for markups. Traulsen added that $100 could be problematic
for some small manufacturers. (Traulsen, No. 19 at p. 177)
DOE agrees with NEEA and Earthjustice that an optional physical
testing method would be more representative of actual condensing unit
energy reduction for a given case. However, DOE also agrees with
Traulsen that physical testing should be an optional method due to the
increased burden associated with additional testing. In response to
Hussmann's comment, DOE believes the test procedure amendments for
lighting occupancy sensors and scheduled controls adopted in this final
rule, which allow for use of the calculation method or performance of a
physical test, are sufficiently repeatable for the purpose of showing
compliance with DOE energy conservation standards. Thus, in this test
procedure final rule, DOE is incorporating provisions that allow
manufacturers to choose either the calculation method or a physical
test to demonstrate and credit energy savings associated with lighting
occupancy sensors and scheduled controls. DOE believes that continuing
to provide a calculation method for lighting occupancy sensors and
controls is a less burdensome and more consistent method to account for
the energy savings associated with these technologies. Nonetheless, if
a manufacturer wishes to account for the energy reduction associated
with lighting occupancy sensors and controls through physical testing,
DOE is specifying that a physical test may be performed. The physical
test will be prescribed as ``optional'' to allow the use of a
calculation method to reduce burden on manufacturers and provide
flexibility in the rating of equipment. In response to ACEEE's comment
regarding the treatment of innovative new lighting technologies, DOE
believes the optional physical test will allow manufacturers to measure
the energy consumption of any new lighting technology that cannot be
characterized by the calculation method. In either case, manufacturers
will be expected to record which test method, calculation or physical,
was used to determine the energy consumption of the equipment and to
keep this information as part of the data underlying the certification.
For DOE-initiated testing, DOE will run the optional physical test.
4. Inclusion of a Provision for Testing at Lowest Application Product
Temperature
DOE has developed equipment classes based on three distinct
temperature categories: (1) refrigerators that operate at or above 32
[deg]F and are tested at an integrated average temperature of 38 [deg]F
(2 [deg]F); (2) freezers that operate below 32 [deg]F and
above -5 [deg]F and are tested at an integrated average temperature of
0 [deg]F (2 [deg]F); and (3) ice-cream freezers that
operate at or below -5 [deg]F and are tested at an integrated average
temperature of -15 [deg]F (2 [deg]F). 10 CFR 431.66(d)(1)
During the May 2010 Framework public meeting, several parties
commented that some equipment covered under this rulemaking is designed
to operate at significantly higher temperatures than the designated
temperature for the corresponding equipment class. Specifically,
California Codes and Standards stated that DOE should review test
methods for niche equipment that may require different temperature
criteria and schedules. (Docket No. EERE-2010-BT-STD-0003; California
Codes and Standards, No. 5 at p. 3) Structural Concepts also stated
that some types of equipment, such as candy and wine cases, operate at
55 or 60[emsp14][deg]F, yet would have to be tested at 38[emsp14][deg]F
to meet an energy conservation standard, which is problematic because
these units are not designed to operate at that temperature. (Docket
No. EERE-2010-BT-STD-0003; Structural Concepts, No. 6 at p. 59)
AHRI Standard 1200-2010 includes provisions for such equipment to
be rated at the application product temperature. To accommodate
equipment that operates at temperatures much greater than the 38 [deg]F
(2 [deg]F) rating temperature, in the November 2010 NOPR
DOE proposed including a provision for testing refrigerators that
cannot operate at the prescribed 38 [deg]F (2 [deg]F)
integrated average rating temperature, permitting them to be tested at
the lowest application product temperature. In the November 2010 NOPR,
``lowest application product temperature'' was defined as ``the lowest
integrated average product temperature achievable and maintainable
within 2 [deg]F for the duration of the test.'' 75 FR
71605 (Nov. 24, 2010). DOE clarified that, for equipment rated at the
lowest application product temperature, the integrated average
temperature achieved during the test should be recorded, and that
equipment tested at the lowest application product temperature would
still be required to comply with the applicable standard for its
respective equipment class. 75 FR 71605 (Nov. 24, 2010). DOE received
several comments related to (1) the definition of lowest application
product temperature; (2) expanding the definition of lowest application
product temperature to include freezers and ice-cream freezers that
cannot operate at the specified rating temperatures; (3) the energy
conservation standard for equipment tested at the lowest application
product temperature; and (4) how the provision for lowest application
product temperature would accommodate remote condensing equipment. The
specific comments and DOE's responses are provided in the subsequent
sections.
a. Definition of Lowest Application Product Temperature
In comments received during the November 2010 NOPR comment period,
NEEA stated that lowest application product temperature could be
defined as the lowest temperature setting on the thermostat, and that
DOE needs to better define what the lowest temperature is and how it is
determined. (NEEA, No. 19 at p. 213) True responded that the lowest
application product temperature is based on a number of factors and
that units should be tested at the lowest set point. (True, No. 19 at
p. 214) NEEA also stated that, due to the differences in types,
applications, and configurations for application-temperature equipment,
DOE must establish test procedures for this equipment that address the
way that they are designed and controlled, as well as the ambient
conditions in which they are operated, regardless of the shipment
volume, in accordance with EPCA. (NEEA, No. 8 at p. 6) ACEEE commented
that the lowest application temperature should be standardized, and
inquired whether manufacturers would be able to test to any temperature
[[Page 10303]]
they want, or if the lowest application product temperature will be
restricted to one or a few values. ACEEE added that equipment
comparison would be difficult if there is no standardization. (ACEEE,
No. 19 at pp. 217 and 219)
DOE believes that ``the lowest thermostat setting'' may not be a
prescriptive enough definition in all cases. In some cases, the CRE
does not contain an adjustable thermostat, which can be manually
changed for testing. DOE agrees with True that the lowest application
product temperature is based on a number of factors and cannot be
limited to one CRE accessory. DOE intends to provide manufacturers with
the flexibility to determine the lowest application product temperature
for a given case only when the CRE cannot be tested at the specified
rating temperatures. The phrase ``lowest application product
temperature'' is also consistent with the nomenclature used in the
Canadian energy efficiency regulations and test procedures for self-
contained commercial refrigerators, freezers, and refrigerator
freezers, established by Natural Resources Canada.\21\ In most cases
with thermostats, DOE agrees that the lowest application product
temperature is, in fact, the lowest thermostat set point.
---------------------------------------------------------------------------
\21\ Natural Resources Canada, Office of Energy Efficiency.
``Energy Efficiency Regulations.'' Canada Gazette. Part I; June
2010.
---------------------------------------------------------------------------
In response to ACEEE's comments, DOE is not restricting the lowest
application product temperature to specific values. To qualify to use
the lowest application product temperature for a certain piece of
equipment, a manufacturer should be confident that any case tested
under that equipment rating could achieve the specified lowest
application product temperature within 2 [deg]F and could
not be tested at the rating temperature for the given equipment class.
Further, manufacturers should clearly document any variation in rating
temperature setting in the test data they maintain underlying the
certification of each basic model. In this test procedure final rule,
DOE has better defined how the proper test temperature is to be
determined and has clarified that, for many pieces of equipment, this
will be the lowest temperature setting on the unit's thermostat. DOE
agrees with commenters that it is important to designate equipment
tested using the lowest application product temperature provision to
ensure they are not incorrectly compared with units that are tested at
the specified rating temperature. While DOE is not modifying the
certification requirements in this final rule to require manufacturers
to report the temperature at which the unit was tested (if other than
the rating temperature), DOE is requiring that documentation be
maintained as part of the test data underlying the certification.
Further, the certified ratings calculated from the test data and
applicable sampling plans should reflect the energy consumption
measured at the lowest application product temperature setting.
b. Extension of Lowest Application Product Temperature Rating to All
Equipment Classes and Rating Temperatures
At the January 2011 NOPR public meeting, several interested parties
commented that there is a second category of equipment, including ice
storage cases operating at 20 [deg]F, that are unable to be tested at
the prescribed rating temperature for freezers, or 0 [deg]F (2 [deg]F). The commenters suggested that the provisions for
testing at the lowest application product temperature should be
expanded to freezers and ice-cream freezers to accommodate equipment
that cannot be rated at the prescribed test temperature for its
equipment class. (True, No. 19 at p. 191; Hussmann, No. 19 at pp. 192-
93; Traulsen, No. 19 at p. 194; Zero Zone, No. 16 at p. 2; AHRI, No. 15
at pp. 2-3) Hussmann added that a case designed for 20 [deg]F that is
not required to be designed to be tested at 0 [deg]F (2
[deg]F) for certification would be more efficient overall. (Hussmann,
No. 19 at pp. 192-93)
DOE also has noticed that some equipment may not be able to be
tested at the prescribed rating temperature because the operating
temperatures are below the specified rating temperature (e.g., a piece
of commercial refrigeration equipment that operates at temperatures
between 32 and 36[emsp14][deg]F and cannot be tested at an integrated
average temperature of 38 [deg]F).
DOE understands that some equipment cannot be tested at its
prescribed rating temperature and is adopting provisions in this final
rule to accommodate testing for those units at the lowest application
product temperature. In response to interested parties' comments
regarding equipment that operates at, for example, 20 [deg]F, and thus
falls into the freezer temperature range, but is not able to be tested
at the prescribed rating temperature for freezers, 0 [deg]F (2 [deg]F), DOE is expanding the ``lowest application product
temperature'' provision to freezers and ice-cream freezers. With regard
to differentiation of equipment that was tested at the specified rating
temperature, DOE is requiring manufacturers to maintain documentation
of the temperature at which the unit was tested (if other than the DOE
prescribed rating temperature) as part of the test data underlying the
certification, as well as base any certified ratings on the energy
consumption of the equipment as determined using the lowest application
product temperature test procedure.
DOE also notes that while some equipment theoretically may not be
able to be tested at the prescribed rating temperature because it
operates at temperatures lower than the specified rating temperature
and cannot reach the specified rating temperature, DOE is not aware of
this occurring in any equipment that is currently marketed and sold in
the United States, and DOE believes there is little possibility of this
occurring. To provide clarity in differentiating equipment that cannot
be rated at the prescribed rating condition, DOE will continue to refer
to this provision as the ``lowest application product temperature.''
However, to account for all possible temperature ranges of equipment,
DOE is defining the ``lowest application product temperature'' as ``the
temperature closest to the equipment's specified rating temperature
that the unit can achieve (2 [deg]F).'' In this case,
2 [deg]F refers to the repeatability of the lowest
application product temperature.
c. Energy Conservation Standard for Equipment Tested at the Lowest
Application Product Temperature
In the November 2010 NOPR, DOE proposed that equipment tested at
the lowest application product temperature still be required to comply
with the standard for its respective equipment class. 75 FR 71605-06
(Nov. 24, 2010). DOE made this proposal due to the small fraction of
equipment that DOE expects to be rated using the lowest application
product temperature provision. DOE analyzed the shipments data provided
by ARI during the Framework comment period of the 2009 energy
conservation standards rulemaking. (Docket No. EERE-2006-BT-STD-0126,
ARI, No. 7 Exhibit B at p. 1). DOE found that, excluding that equipment
for which EPACT 2005 amended EPCA to set standards (i.e., self-
contained commercial refrigerators and commercial freezers with doors)
(42 U.S.C. 6313(c)(2)), only 1.7 percent of units for which standards
were established operate at ``application temperatures,'' namely 45
[deg]F, 20 [deg]F, 10 [deg]F, or -30 [deg]F. Of these, units that
operate at 45 [deg]F (typically ``wine chillers'') had the highest
shipments, and these units were predominantly remote condensing
equipment. Given
[[Page 10304]]
the relatively low shipment volumes of equipment that operates at
application temperatures, DOE did not believe it was justified in
developing separate standards for equipment that operates at an
application temperature different than one of the three prescribed
rating temperatures. 74 FR 1104 (Jan. 9, 2009).
At the January 2011 NOPR public meeting and in written comments
submitted during the public comment period, many interested parties
commented on DOE's proposal that equipment tested at the lowest
application product temperature would still be required to comply with
the standard for its respective equipment class. California Codes and
Standards, ACEEE, NEEA, and NRDC all agreed that it is reasonable to
test equipment not capable of achieving a rating temperature at its
lowest operating temperature, provided this equipment represents a
small market share and is appropriately differentiated to prevent
loopholes. (California Codes and Standards, No. 13 at p. 5; ACEEE, No.
12 at p. 5; NEEA, No. 8 at pp. 6-7; NRDC, No. 14 at pp. 1-2) NRDC
suggested that equipment that cannot be tested below 38 [deg]F should
be labeled and sold with its projected annual energy consumption data
indicating the lowest temperature achievable during testing, and should
be clearly differentiated from equipment that meets the required
testing temperatures. (NRDC, No. 14 at p. 2) ACEEE suggested that DOE
define equipment classes in a manner that prevents the substitution of
less efficient equipment for more efficient general-duty equipment.
(ACEEE, No. 12 at pp. 1-2) ACEEE also expressed concern regarding the
presence of ice cabinets on the market, and questioned how DOE could
differentiate ice cabinets from freezers if they are rated at
application temperature, so that they are not used inappropriately for
frozen food storage. (ACEEE, No. 12 at p. 5) NEEA disagreed with DOE's
tendency to refer to equipment with application temperatures above 38
[deg]F as ``medium temperature'' because some of this equipment
operates at significantly higher temperatures than the medium
temperature rating condition of 38 [deg]F. Therefore, NEEA suggested
that this equipment be referred to as ``high or elevated temperature''
equipment. Additionally, NEEA asserted that ice storage cabinets, or
any other equipment operating at an operating temperature between 0
[deg]F and 38 [deg]F, should not be called ``medium'' or ``low''
temperature. (NEEA, No. 8 at pp. 6-7)
True asked whether ice chests or freezers that are designed to
operate at 20 [deg]F and cannot be tested at 0 [deg]F (2
[deg]F) would be required to meet the refrigerator or the freezer
energy conservation standard. (True, No. 19 at p. 207) California Codes
and Standards and NRDC also stated that the standard levels should be
correspondingly adjusted to avoid loopholes, as otherwise, less
efficient equipment potentially could comply if it were allowed to be
tested at a higher operating temperature. (California Codes and
Standards, No. 13 at p. 5; NRDC, No. 14 at pp. 1-2) California Codes
and Standards suggested that DOE create a method to scale standards
based on rating temperature, and stated that this would not require
additional equipment classes. (California Codes and Standards, No. 19
at pp. 223 and 227) NRDC stated that, while DOE's past reasoning for
not setting specific requirements for application-temperature equipment
was based on the small size of the market, a forward-looking standard
should include this equipment and set efficiency levels for it. (NRDC,
No. 14 at p. 2) Sean Gouw (unaffiliated) commented that DOE had created
product classes for niche products with low market share before, for
example built-in residential refrigerators. (Gouw, No. 19 at p. 234)
AHRI commented that refrigerated cases that cannot operate at an
integrated average temperature of 38 [deg]F are niche products and
represent a small part of the market. (AHRI, No. 19 at p. 228) Southern
Store Fixtures commented that cases rated for higher temperatures do
not necessarily use less energy because they may require additional
heaters for humidity control. (Southern Store Fixtures, No. 19 at p.
229)
DOE maintains that units tested at the lowest application product
temperature will still be required to meet the applicable energy
conservation standard based on their equipment class. While DOE
understands that this approach may result in slightly less stringent
standards for the small number of units that cannot be tested at the
prescribed rating temperatures, as interested parties pointed out, DOE
does not believe that establishing separate equipment classes for these
niche types of equipment would be justified given their small shipment
volume and the wide diversity of niche products.
DOE agrees with interested parties that preventing loopholes that
would allow less efficient equipment to be sold is very important.
However, DOE believes that allowing testing at the lowest application
product temperature for all temperature classes allows for coverage of
more equipment and may allow ``intermediate'' equipment that cannot
operate at its prescribed test temperatures to be designed to operate
more efficiently. It is not expected that this will create an
opportunity for less efficient equipment to be sold because DOE is
requiring units tested at the lowest application product temperature to
be retested if the thermostat is changed.
California Codes and Standards also suggested scaling the energy
consumption data for equipment tested at application temperatures to
reflect projected energy consumption at the relevant rating
temperature. (California Codes and Standards, No. 19 at pp. 223 and
227) However, DOE agrees with Southern Store Fixtures that testing
these units at a higher integrated average temperature does not
necessarily mean that the unit will use less energy. The variability in
energy use and the impact of variation in integrated average
temperature will depend on case type, geometry, and configuration. This
makes it very difficult to set a consistent scaling factor or
incorporate temperature into the standards equations, as any value
chosen would be not be representative of all cases. This issue will be
discussed further in the energy conservation standards rulemaking
(Docket No. EERE-2010-BT-STD-0003).
With respect to NEEA's suggestion that equipment rated at lowest
application product temperature be referred to as ``high or elevated
temperature'' equipment, DOE cannot control how equipment is referred
to or categorized in the market beyond the equipment classes DOE
specifies. Since DOE is not creating a unique equipment class for this
equipment, DOE will continue to categorize the equipment based on its
appropriate equipment class.
d. Remote Condensing Units and the Lowest Application Product
Temperature
In the November 2010 NOPR, DOE proposed that the lowest application
product temperature provision apply equally to self-contained and
remote condensing commercial refrigeration equipment. 75 FR 71605 (Nov.
24, 2010). AHRI inquired how the lowest application product temperature
would apply to remote condensing equipment, because the lowest
operating temperature for remote condensing equipment is dependent on
the condensing unit to which it is attached. (AHRI, No. 19 at p. 203)
Zero Zone commented that the approach for testing equipment at the
lowest application product temperature was reasonable for
[[Page 10305]]
self-contained equipment, but for remote condensing equipment, the size
of the condensing unit would affect the operating temperature range.
Zero Zone further inquired whether the test procedure would regulate
the size of condensing units. (Zero Zone, No. 19 at p. 207) Zero Zone
stated that there needs to be more specificity in the testing of
application temperature for remote condensing equipment. Zero Zone
continued by asserting that ASHRAE 72 requires that a pressure
regulator be used to set the evaporating temperature to the correct
value. This means that the limit of evaporating temperature is
dependent on the size of the test laboratory's compressor rack. Zero
Zone suggested that, for standardization purposes, the DOE test
procedure should require that the saturated suction temperature be set
to 5[emsp14][deg]F colder than the temperature needed to maintain the
application temperature. (Zero Zone, No. 16 at p. 2)
DOE has reviewed Zero Zone's comment and the pertinent sections of
ASHRAE Standard 72. DOE concedes that, for remote condensing equipment
that does not have a thermostat or another means to regulate
temperature, the size of the compressor rack could impact the lowest
achievable application product temperature. In this case, the saturated
suction temperature at the compressor rack (also referred to as the
Adjusted Dew Point Temperature in AHRI 1200-2010) impacts the amount of
refrigerant that can flow through the evaporator. Larger compressor
racks are able to achieve lower saturated suction temperatures, which
will produce a lower operating temperature in the case than a smaller
compressor. DOE acknowledges that the method included in Zero Zone's
comment would create a standardized repeatable test for this type of
equipment. However, DOE believes that the specification of a saturated
suction temperature to 5 [deg]F lower than that required to maintain
the application temperature is somewhat arbitrary and not necessarily
indicative of the lowest operating temperature of the unit. This
specification also could inadvertently restrict or burden manufacturers
when testing their equipment. DOE did not receive comments from other
manufacturers on this topic. DOE also notes that specification of a
fixed saturated suction temperature is only required for remote
condensing units without thermostats or other means of regulating
temperatures that are rated at the lowest application product
temperature. DOE is not currently aware of any equipment on the market
that would fit this description.
In the case of remote condensing equipment with a thermostat, DOE
believes that the lowest application product temperature is
sufficiently defined by the range of the thermostat and that the
suction temperature is similarly limited by the thermostat. However,
for remote cases that do not have a thermostat or other means for
controlling temperature at the case level, DOE acknowledges that this
relationship between compressor rack size and lowest application
product temperature does create some variability in the lowest
application product temperature that can be achieved by a given case.
Thus, DOE is requiring that the adjusted dew point temperature, as
defined in AHRI 1200-2010, be set to 5 [deg]F colder than that
temperature required to maintain the manufacturer's lowest specified
application temperature for those pieces of remote condensing
commercial refrigeration equipment that do not have a means for
controlling temperature at the case, such as a thermostat, and cannot
be tested at their specified integrated average rating temperatures.
5. Provisions Allowing Testing of Equipment at NSF Test Temperatures
Commercial refrigeration equipment that is marketed to hold
perishable food items is classified and certified by NSF/ANSI-7,
``Commercial Refrigerators and Freezers'' (hereafter referred to as
NSF-7), a food safety standard issued by NSF.\22\ NSF-7 establishes two
classes for commercial display cases: Type I, which is tested at ASHRAE
Standard 72 standard ambient conditions (75 [deg]F dry bulb and 64
[deg]F wet bulb temperature), and Type II, which is tested at higher
ambient conditions (80 [deg]F dry bulb and 68 [deg]F wet bulb
temperature). These two test conditions are also reported in terms of
dry bulb temperature and percentage relative humidity. Type I
corresponds to 75 [deg]F and 55 percent relative humidity, and Type II
corresponds to 80 [deg]F and 60 percent relative humidity. NSF-7 also
requires Type I and Type II equipment to be tested such that the
average temperature of each test package containing an individual
temperature sensor does not exceed 41 [deg]F and no single temperature
sensor exceeds a reading of 43 [deg]F at any time during the test. NSF-
7 does not specify a required average temperature for all test sensors
or the measurement of energy consumption during the test. On the other
hand, DOE does require an integrated average test temperature of 38
[deg]F 2 [deg]F. However, manufacturers have reported that
they test cases at lower integrated average temperatures than that
specified by DOE to ensure the NSF-7 requirements are met.
---------------------------------------------------------------------------
\22\ NSF International. ``NSF/ASNI 7--2009: Commercial
Refrigerators and Freezers.'' Ann Arbor, MI. https://www.nsf.org/business/food_equipment/standards.asp.
---------------------------------------------------------------------------
At the January 2011 NOPR public meeting and in subsequent written
comments, interested parties commented on the similarities and
differences between the DOE test procedure and the NSF-7 test.
Commenters also noted the additional burden associated with performing
both tests. Southern Store Fixtures commented that if a unit designed
to operate at higher ambient conditions is operated at a lower ambient
temperature, the case will not perform as well because it will have an
oversized compressor and could have operational issues with compressor
cycling. Southern Store Fixtures further commented that the energy
consumption of a case can increase by as much as 30 percent when
changing from a rating condition of 75 [deg]F and 55 percent relative
humidity to 80 [deg]F and 60 percent relative humidity. (Southern Store
Fixtures, No. 19 at pp. 94-95) True and Coca-Cola stated that a 5
[deg]F difference will not significantly affect energy consumption and
that, for those few cases that would be significantly affected, they
could apply for a waiver. (True, No. 19 at p. 122; Coca-Cola, No. 19 at
p. 123) Southern Store Fixtures countered that only in cases with solid
doors will the 5 [deg]F temperature difference be insignificant
(Southern Store Fixtures, No. 19 at p. 131), and that the effects of a
5 [deg]F increase in temperature can be significant for open cases or
cases with single pane glass. (Southern Store Fixtures, No. 19 at p.
97)
Hussmann stated that, although the difference in energy use among
self-contained cases may not be significant, Hussmann was concerned
with the additional burden of testing a case twice. (Hussmann, No. 19
at p. 123) Hussmann stated that all units must pass the NSF-7
requirements in order to be certified for food safety. The NSF-7
requirement differs from AHRI 1200 in that the maximum average
temperature can never exceed 41 [deg]F at any time. Hussmann also
stated that the integrated average temperature for the NSF-7 test
(approximately 34 [deg]F) is actually lower than that required by the
DOE test procedure, and that the energy consumption of a medium
temperature self-contained case is higher during testing for NSF
compliance than it is during the DOE energy consumption
[[Page 10306]]
test. Hussmann commented that, as it stands now, equipment that
consumes more energy during the NSF-7 test than is allowed by the DOE
test procedure would have to be re-tested at DOE conditions, thereby
imposing an additional burden. Hussmann stated that 85 percent of its
self-contained models require NSF testing, meaning that hundreds of
additional DOE tests could be required. (Hussmann, No. 10 at pp. 1-2)
Hussmann recommended that DOE allow for the use of a linear polynomial
curve-fit in the development of a normalization equation from NSF to
DOE internal temperatures. This would allow manufacturers test at NSF
internal conditions and then normalize to the standard DOE conditions,
which would reduce the testing burden because manufacturers already
test to the NSF standard. (Hussmann, No. 10 at p. 2)
California Codes and Standards and NEEA both suggested that DOE
allow testing at both the 75 [deg]F and 55 percent relative humidity
rating condition and NSF Type II conditions, provided the case, as
tested, were to meet the applicable energy conservation standard.
(California Codes and Standards, No. 19 at p. 124; NEEA, No. 19 at p.
127) ACEEE stated its belief that commercial refrigeration equipment
can be divided into two types of equipment: that for which food safety
is a true concern, and that which cools and displays product for the
purposes of presenting value to the consumer. The former subset of
equipment is rated in accordance with NSF food safety standards, while
the latter is not. Therefore, ACEEE suggested making a distinction
between the two in the DOE test procedure, with the NSF-7 test
procedure being used for equipment for which food safety is a true
concern, and the AHRI/ASHRAE method being used for the remaining
equipment. ACEEE stated that it would endorse such a method as long as
the two subsets of equipment were separated clearly, such as via
labeling. (ACEEE, No. 12 at pp. 2-3)
True stated that the current Federal test procedure relies on
ASHRAE Standard 72, which specifies a rating condition of 75 [deg]F and
55 percent relative humidity, and that this reflects the way cases are
currently tested. True added that if the test temperatures were to be
changed, comparison with historical data could be difficult. (True, No.
19 at pp. 127-28) True also acknowledged that self-contained cases
currently required to meet the EPACT 2005 standard must test at the DOE
rating condition of 75 [deg]F and 55 percent relative humidity and,
optionally, at NSF Type II conditions, so there is no incremental
increase in burden. (True, No. 19 at p. 129)
DOE acknowledges the burden on manufacturers that have to certify
equipment with both the DOE test procedure and the NSF-7 test
procedure. DOE also agrees with interested parties that testing cases
at an ambient temperature of 80 [deg]F, rather than the currently
specified 75 [deg]F, will not have a significant impact on energy
consumption for cases with doors. DOE recognizes that, as Southern
Store Fixtures mentioned, the impact on open cases may be greater than
on closed cases, but does not believe that equipment will have
operation or performance issues if tested at a the temperatures
prescribed by the DOE test procedure. DOE believes the energy
consumption of a case should scale with ambient temperature and does
not believe these issues will prevent units from being tested using the
DOE-prescribed test temperatures or demonstrating compliance with DOE
energy conservation standards. DOE researched the equipment available
on the market and requested specific data regarding the existence of
cases that cannot meet the standard or the characteristics of their
operation. DOE has found no evidence or firm data supporting the
creation of a separate equipment class and standard for equipment
designed to operate at higher ambient conditions. Thus, DOE will not
create specific new equipment classes for equipment that is designed to
operate at internal or ambient temperatures other than the test
conditions prescribed by DOE.
DOE does not believe development of a scaling factor that would be
sufficiently representative of equipment energy consumption and
consistent across an equipment class is justified within the scope of
this rulemaking. The geometry and design of each case will cause the
magnitude of the impact of variation in temperature to vary, making
development of any scaling factor extremely burdensome. This is true
for both external and internal temperature variations.
Continuing to require testing at standard rating conditions, as
prescribed in the DOE test procedure, without allowances for variation
in internal or external temperatures, will not increase the burden for
manufacturers. However, it will also not reduce the total burden of
testing, which could be accomplished through coordination of test
requirements with other programs, such as NSF.
In response to the suggestion that cases could optionally be tested
at NSF-7 conditions (ambient or internal) as long as the unit, as
tested, complies with the energy conservation standard, DOE believes
that this will effectively reduce the burden on manufacturers while
ensuring that all cases meet or exceed the DOE energy conservation
standard, provided the NSF-7 rating temperatures and ambient conditions
represent a more stringent test. In most cases, using the NSF internal
temperature requirements or Type II external ambient conditions
represents a more conservative test in that equipment will have to be
more efficient to operate at NSF internal temperatures or ambient
conditions and still comply with DOE energy conservation standards. For
example, as Hussmann notes, manufacturers often perform the NSF-7 test
at a lower integrated average temperature than that required by the DOE
test procedure to ensure their cases will comply with NSF's food safety
requirements. However, DOE notes that this method is optional, and
manufacturers are technically allowed to test cases at up to 41 [deg]F
integrated average temperature under the NSF-7 test, provided the air
is perfectly mixed and the spatial temperature variation within the
case is very well controlled. In an effort to reduce burden for
manufacturers and allow testing for the purposes of NSF certification
and DOE compliance to occur in the same test, DOE is adopting in this
final rule provisions that allow manufacturers to optionally use NSF
internal or ambient conditions to test equipment in a given equipment
class, provided the NSF conditions are more stringent than the
prescribed DOE rating temperatures and conditions for that equipment
class. To clarify, manufacturers may test at the prescribed 75 [deg]F
and 55 percent relative humidity ambient rating condition, or they may
optionally test at the NSF Type II conditions of 80 [deg]F and 60
percent relative humidity. In either case, the equipment would be
required to show compliance with the relevant energy conservation
standard for that equipment class. Additionally, manufacturers are
allowed to test equipment at integrated average temperatures that
satisfy the DOE-specified rating temperatures or are lower than the
DOE-specified rating temperatures.
DOE acknowledges that allowing equipment to be tested at NSF-7
conditions in the DOE test procedure would make comparison of equipment
within the same equipment class difficult and confusing, given that
there could be cases tested at four different conditions in the same
class. However, DOE is requiring that equipment rated at
[[Page 10307]]
NSF-7 rating temperatures maintain documentation of the internal and
ambient temperatures as part of the test data underlying the
certification, so that informed comparisons can be made.
As True acknowledged, manufacturers that produce equipment covered
by EPACT 2005 standards are currently testing to both the DOE and NSF-7
test procedures. Thus, maintaining the proposed equipment classes and
test temperatures for equipment that must also be tested using the NSF-
7 test for food safety certification does not introduce any incremental
burden on manufacturers. Instead, the provision to demonstrate
compliance by testing the equipment at NSF-7 test conditions is only
meant to provide an opportunity to the manufacturers to reduce the
number of tests for equipment that can comply with DOE standards even
when tested at the more stringent NSF-7 test conditions. However, this
provision will not be advantageous to equipment that may be unable to
comply by DOE standards when tested at the more stringent NSF-7 test
conditions due to a large difference in energy consumption at the two
different test conditions.
In summary, DOE is incorporating language in the test procedure
final rule that will allow manufacturers to optionally test at NSF-7
conditions that are more stringent than the DOE test conditions to
reduce the repetitive test burden of testing at both DOE and NSF-7
conditions, provided the case still meets DOE's energy conservation
standards.
B. Other Notice of Proposed Rulemaking Comments and DOE Responses
At the January 2011 NOPR public meeting and in the ensuing comment
period, DOE received comments from interested parties regarding several
issues that pertain to the CRE test procedure and energy conservation
standard rulemakings, but not to specific provisions or amendments. DOE
received comments on the scope of covered equipment; the testing of
part-load technologies not currently referenced explicitly in the test
procedure; the effective date of the test procedure rulemaking;
preemption of State regulations; the burden of testing; the association
of this final rule with DOE's certification, compliance, and
enforcement regulations; alternative refrigerants; and secondary
coolant systems.
1. Equipment Scope
The test procedure for commercial refrigeration equipment
prescribes methods for testing all commercial refrigeration equipment,
as defined in 10 CFR 431.62. The definition of commercial refrigerator,
freezer, and refrigerator-freezer includes all refrigeration equipment
that:
(1) Is not a consumer product (as defined in Sec. 430.2 of part
430);
(2) Is not designed and marketed exclusively for medical,
scientific, or research purposes;
(3) Operates at a chilled, frozen, combination chilled and
frozen, or variable temperature;
(4) Displays or stores merchandise and other perishable
materials horizontally, semi-vertically, or vertically;
(5) Has transparent or solid doors, sliding or hinged doors, a
combination of hinged, sliding, transparent, or solid doors, or no
doors;
(6) Is designed for pull-down temperature applications or
holding temperature applications; and
(7) Is connected to a self-contained condensing unit or to a
remote condensing unit.
10 CFR 431.62
a. Remote Condensing Racks
California Codes and Standards commented that DOE should consider
regulating remote condensing racks and that significant energy savings
were possible in that type of equipment. (California Codes and
Standards, No. 19 at p. 12) California Codes and Standards further
asked DOE to review the pros and cons of establishing a separate
rulemaking on remote condensers and to consider which parts of remote
condensing equipment should be covered by energy conservation
standards. These standards, the comment stated, would be well suited to
establishing a baseline efficiency for the remote condensing unit,
independent of the type of equipment it serves. (California Codes and
Standards, No. 13 at pp. 1-2) ACEEE stated that DOE should recognize
the distinction between dedicated remote condensing units and rack
systems that serve multiple pieces of equipment. ACEEE suggested that
DOE should develop an appropriate method for rating dedicated remote
compressors across various capacities and temperature needs,
potentially using standard loads for the testing of remote rack
systems. (ACEEE, No. 12 at p. 5)
During the 2009 CRE energy conservation standards rulemaking, DOE
made the determination not to cover remote condensers within the scope
of the January 2009 final rule, and to limit the standards analyses to
refrigerated cases only and not the remote condensers. In the advance
notice of proposed rulemaking, DOE stated:
In its Framework Document, DOE pointed out that EPCA defines a
``self-contained condensing unit,'' in part, as an assembly of
refrigerating components ``that is an integral part of the
refrigerated equipment * * *'' (42 U.S.C. 6311(9)(F), added by EPACT
2005, section 136(a)(3)) EPCA also defines a ``remote condensing
unit,'' in part, as an assembly of refrigerating components ``that
is remotely located from the refrigerated equipment * * *.'' (42
U.S.C. 6311(9)(E), added by EPACT 2005, section 136(a)(3)) DOE also
stated in the Framework Document that this difference in the
definitions may mean that, under EPCA, remote condensing units are
not a part of the refrigerated equipment and that energy
conservation standards for remote condensing commercial
refrigerators, commercial freezers, and commercial refrigerator-
freezers would apply only to the refrigerated equipment (i.e.,
storage cabinets and display cases), but not to the remote
condensing units.
72 FR 41170-71 (July 26, 2007).
Several interested parties commented at that time that coverage of
remote condensers would be difficult due to the wide variety of this
type of equipment. (Docket No. EERE-2006-STD-0126, Zero Zone, Public
Meeting Transcript, No. 3.4 at p. 48; \23\ ARI, No. 7, at p. 3)
Additionally, energy efficiency advocates and utilities expressed the
opinion that these units should be covered, but not necessarily within
the scope of that rulemaking. (Docket No. EERE-2006-STD-0126, Joint
Comment,\24\ No. 9 at p. 5) DOE decided to not cover remote condensers
in the January 2009 final rule. DOE further stated that it would
address later whether it has the authority to regulate this equipment,
and if so, would examine then whether standards for remote condensers
are warranted and feasible. 74 FR 1105 (Jan. 9, 2009).
---------------------------------------------------------------------------
\23\ A notation in the form ``Docket No. EE-2006-STD-0126, Zero
Zone, Public Meeting Transcript, No. 3.4 at p. 48'' identifies an
oral comment that DOE received during the May 16, 2006 Framework
public meeting and which was recorded on page 48 of the public
meeting transcript (document number 3.4) in the docket for the 2009
CRE energy conservation standards rulemaking (Docket No. EERE-2006-
STD-0126).
\24\ Joint Comment refers to a written comment submitted by the
Alliance to Save Energy, ACEEE, the Appliance Standards Awareness
Project, NRDC, Northeast Energy Efficiency Partnerships, and
Northwest Power and Conservation Council in Docket No. EERE-2006-
STD-0126.
---------------------------------------------------------------------------
DOE believes that nothing has changed to affect this stance. DOE
continues to believe that the condenser rack to which a piece of remote
condensing commercial refrigeration equipment is attached to, is a
separate piece of equipment that may serve other equipment types (e.g.,
walk-in coolers and freezers). As such, DOE is not
[[Page 10308]]
considering remote condensing racks in the current associated energy
conservation standards rulemaking (Docket No. EERE-2010-BT-STD-0003).
DOE is not introducing test procedures for remote condensers in this
rulemaking, and maintains that DOE has no obligation to do so. DOE, if
it proposed to regulate or develop a test procedure for remote
condensing racks, would do so in a separate rulemaking.
b. Testing of Part-Load Technologies at Variable Refrigeration Load
Technologies that operate as a function of variable ambient
conditions can reduce annual energy consumption of commercial
refrigeration equipment by adapting to changes in refrigeration load
that result from changes in ambient conditions. These variable load, or
part-load, technologies include higher efficiency expansion valves,
condenser fan motor controllers, and anti-sweat heater controllers. In
the November 2010 NOPR, DOE suggested that, although ASHRAE Standard
72-2005 is a steady-state test, some variation in refrigeration load is
experienced in that test due to the door opening and night curtain
provisions. This variation in refrigeration load inherent in the test
procedure means the effects of variable load, or part-load, features
are already captured to some degree in the proposed test procedure for
commercial refrigeration equipment. DOE further argued that additional
independent or explicit part-load testing would result in increased
cost and burden for manufacturers of covered equipment. DOE estimated
that part-load testing at additional rating conditions could more than
double the cost and burden of testing for all commercial refrigeration
equipment. In the November 2010 NOPR, DOE stated that explicit testing
at multiple sets of conditions was not justified because of this
increased burden, and proposed that the test procedure continue to
reference only one standard ambient condition, relying on the transient
effects inherent in the proposed test procedure to capture part-load
performance. 75 FR 71601 (Nov. 24, 2010).
At the January 2011 NOPR public meeting and in subsequent written
comments, NEEA and California Codes and Standards agreed with DOE that
the ASHRAE Standard 72 test method does include variation in the
refrigeration load, which would realize the benefits of part-load
technologies, such as floating head pressure controls, liquid suction
heat exchangers, and improved thermal expansion loads in equipment with
doors. These interested parties asked DOE to evaluate part-load
technologies in the energy conservation standards rulemaking. (NEEA,
No. 8 at p. 2; California Codes and Standards, No. 19 at p. 13)
AHRI commented that additional, specific requirements for testing
of part-load technologies will add an additional burden on
manufacturers, and agreed with DOE that ASHRAE 72 already accounts to
some degree for the effects of part-load technologies. As a result,
AHRI recommended against new testing requirements for these
technologies. (AHRI, No. 15 at p. 2) NEEA agreed that short-term part-
load impacts are limited, and that longer-term variations, such as
those induced by changes in ambient conditions, would be difficult to
capture without imposing a significant additional burden. (NEEA, No. 8
at p. 2)
Conversely, NRDC commented that it believed that DOE had not
provided sufficient data to show that testing at varying loads would
impose an undue burden on manufacturers. NRDC further stated that
manufacturers that use advanced control strategies and variable-load
technologies need to have such features properly credited. According to
NRDC, to not adequately credit such features would conflict with
section 342 of EPCA, which requires DOE to adopt test procedures that
reflect representative energy use. (NRDC, No. 14 at pp. 3-4)
ACEEE stated its belief that gains due to technologies such as
adaptive controls and modulating components must be captured in a test
procedure to fairly express to consumers the better value that may be
presented by equipment that performs more efficiently in the field. In
ACEEE's opinion, to not capture the effects of these features would
result in a loss of competitiveness by domestic manufacturers. (ACEEE,
No. 12 at p. 2) ACEEE added that it does not believe that the current
test methods account for modulating components and their benefits.
(ACEEE, No. 12 at p. 6)
DOE recognizes the desire to better characterize the performance of
these devices. However, DOE believes that the refrigerant load changes
inherent in the amended test procedure are representative of average
use and that the test procedure established in this final rule meets
the requirements for a test procedure established by EPCA section 342
(42 U.S.C. 6314(a)(2)). Given that, DOE believes the establishment of
new, independent test requirements for part-load conditions is not
necessary and would impose undue burden on manufacturers. As stated
previously, testing of part-load technologies would more than double
the burden on manufacturers to test equipment. DOE maintains that part-
load technologies that respond to changes in refrigeration load will be
partially captured in the DOE test procedure due to door openings,
night-curtain deployment, compressor cycling, and minor fluctuations in
the thermodynamic state of the case during the test. In any event,
manufacturers may implement any part-load technologies as they see fit.
DOE believes the efficiency gains achieved by part-load technologies in
the current test procedure are sufficient, and that further independent
testing is not justified.
2. Effective Date
EPCA requires that, 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) and
6314(a)(6)(D)) If DOE determines that the amended test procedure would
alter the measured efficiency of a covered product, DOE must amend the
applicable energy conservation standard accordingly. (42 U.S.C.
6293(e)(2) and 6314(a)(6)(D)) Several of the provisions in this test
procedure final rule will change the measured energy use of some
commercial refrigeration equipment covered under the scope of current
standards. As such, DOE is in the process of amending the current
energy conservation standards for commercial refrigeration equipment in
a concurrent rulemaking (Docket No. EERE-2010-BT-STD-0003).
In the November 2010 NOPR, DOE proposed to require that the use of
the amended test procedure be consistent with the compliance date of
any revised energy conservation standards. 75 FR 71599 (Nov. 24, 2010).
DOE is adding language to the final test procedure amendments
clarifying that the amendments shall not be used at the time of
publication to determine compliance with the current energy
conservation standards. Instead, manufacturers will be required to use
the amended test procedure to demonstrate compliance with DOE's energy
conservation standards on the compliance date of any final rule
establishing amended energy conservation standards for commercial
refrigeration equipment. Until this date, manufacturers must continue
to use the existing DOE test procedure, as set forth at 10 CFR 431.64,
to demonstrate compliance with existing energy conservation standards.
However, EPCA also states that, effective 360 days after any
amended
[[Page 10309]]
test procedure final rule is prescribed, any representations of the
``maximum daily energy consumption'' of covered equipment, for example
in labeling or advertising, must be based on results generated using
the amended test procedure. (42 U.S.C. 6314(d)) In the November 2010
NOPR, DOE proposed that, as of 360 days after publication of any test
procedure final rule, representations of energy consumption of any
covered equipment would need to be based on results generated using the
amended test procedure. 75 FR 71599 (Nov. 24, 2010). This would result
in possible dual testing requirements for some cases between the period
360 days after publication of the amended test procedure final rule and
the effective date of any amended standards. However, because many of
the test procedure amendments are optional, this is not expected to
affect many units. For example, if a case is sold with and without
occupancy sensors, the case would be tested in accordance with the
current DOE test procedure, without amendments, to show compliance with
DOE energy conservation standards. Because this case is not required to
be tested with occupancy sensors in the amended test procedure, the
test using the current DOE test procedure is also in accordance with
the amended test procedure and the established daily energy consumption
values may be reported and publicized. Representations of the ``maximum
daily energy consumption'' of cases accounting for the energy savings
of lighting occupancy sensors, for example, could be made only after
testing the case in accordance with the lighting occupancy sensor
provisions in the amended test procedure. However, the amended test
procedure could not be used to show compliance with DOE energy
conservation standards until the effective date of any amended energy
conservation standards. This is also true for covered equipment sold
with night curtains. The provision for testing cases at the lowest
application product temperature will not affect the reported energy of
any covered product because manufacturers of cases that cannot be
tested at the prescribed rating temperature are currently advised to
request a waiver, since these cases cannot be tested under the existing
test procedure.
ACEEE, NEEA, and Earthjustice all expressed the view that the test
procedure effective date should be equivalent to that of any amended
energy conservation standards published in the concurrent energy
conservation standards rulemaking (Docket No. EERE-2010-BT-STD-0003).
(ACEEE, No. 12 at p. 3; NEEA, No. 31 at p. 2; Earthjustice, No. 11 at
p. 2) Earthjustice also stated that DOE must clarify that manufacturers
may not use night curtains and/or occupancy sensors to comply with
minimum efficiency standards prior to the compliance date of amended
standards that account for those features. (Earthjustice, No. 11 at p.
2) Earthjustice further commented that EPCA requires that, if DOE
amends test procedures, it must also determine to what extent the
proposed test procedure would alter measured energy use as determined
under the existing test procedure. If the test procedure is found to
alter measured energy use, DOE must amend the energy conservation
standard to account for this, taking into consideration the performance
of existing minimally compliant equipment under the amended test
procedure. (Earthjustice, No. 11 at pp. 2-3)
DOE understands that, if the amended test procedure will affect the
measured energy consumption of a covered piece of equipment, DOE must
amend energy conservation standards accordingly. DOE is pursuing
amended standards based on the test procedure amendments being adopted
in this final rule. As such, DOE is requiring that the use of any
amended test procedure not be required until the compliance date of any
amended standards. As these amended test procedures will only be used
with standards that have been set based on those amendments, DOE
believes there is no risk of backsliding, but is conscious of and
accounting for this issue in the associated energy conservation
standards rulemaking (Docket No. EERE-2010-BT-STD-0003).
With respect to representations of the maximum daily energy
consumption of covered equipment, it is DOE's understanding that 360
days following publication of the test procedure final rule,
representations of energy consumption must be made using the amended
test procedure. However, this could create a situation where
manufacturers may have to test equipment using two different test
procedures beginning 360 days after publication of the test procedure
final rule (anticipated October 2012) and until 3 years after the
publication of the CRE energy conservation standards final rule
(anticipated January 2016). DOE believes this potentially would be
confusing and burdensome for manufacturers. To simplify testing
activities, DOE is specifying in this final rule that use of the
amended test procedure for compliance and representations of energy use
will be required on the compliance date of any amended energy
conservation standards resulting from the ongoing rulemaking (Docket
No. EERE-2010-BT-STD-0003). This stance is similar to that proposed for
walk-in coolers and freezers with respect to the testing of insulation
values and is the most practical to implement. 76 FR 48745 (Aug. 9,
2011). DOE is including a clarifying statement in the test procedure
rule language regarding when the amended test procedure must be used
for purposes of compliance and labeling or other representations of
energy consumption.
3. Preemption
At the January 2011 NOPR public meeting, California Codes and
Standards asked DOE to consider which features of commercial
refrigeration equipment should be addressed by DOE, as opposed to
others that could be left uncovered and regulated by State or local
building efficiency standards and codes. Features that could be more
appropriately covered by State or local building regulations, according
to the comment, could include controls not integral to a single unit
(centralized, storewide controls); liquid-suction heat exchangers
serving an entire lineup of cases; and application-specific devices,
such as night curtains, which could be very valuable in some
applications but inapplicable in others (such as 24-hour stores).
California Codes and Standards requested that DOE clarify which of
these types of features would be ``covered'' or ``uncovered'' under the
current and forthcoming CRE regulations (California Codes and
Standards, No. 13 at pp. 15-16) and requested clarification on the
ability of State or local building standards to specify additional
prescriptive requirements for equipment based on building occupancy.
(California Codes and Standards, No. 19 at p. 75)
Federal minimum efficiency standards for commercial refrigeration
equipment supersede State or local efficiency standards (42 U.S.C.
6297, 6316(e)(2)), unless such standards are contained in a State or
local building code for new construction that meets the requirements of
42 U.S.C. 6297(f)(3), including the requirement that one pathway for
compliance under the State building code is through the use of
appliances that meet Federal standards.
4. Burden of Testing
DOE understands that amending test procedures or including
additional
[[Page 10310]]
provisions in those test procedures could increase the burden on
manufacturers to quantify the performance of their equipment. EPCA
requires that the test procedures promulgated by DOE be reasonably
designed to produce test results that reflect energy efficiency, energy
use, and estimated operating costs of the covered equipment during a
representative average use cycle. EPCA also requires that the test
procedure not be unduly burdensome to conduct. (42 U.S.C. 6314(a)(2))
DOE has analyzed the expected incremental cost of the test
procedure amendments adopted in this final rule and its impact on
manufacturers. The amendments to the DOE test procedure for commercial
refrigeration equipment consist of updating the referenced industry
test procedures to the most current versions; testing requirements for
units sold with night curtains and lighting occupancy sensors or
controls installed; and provisions for testing units at temperatures
other than the specified rating temperatures of 38 [deg]F, 0 [deg]F,
and -15 [deg]F.
All commercial refrigeration equipment for which standards were set
in EPACT 2005 are currently required to be tested using the DOE test
procedure to show compliance with the EPACT 2005 standards. (42 U.S.C.
6313(c)(2)-(3); 10 CFR 431.66(b)) Manufacturers of equipment for which
standards were set in the January 2009 final rule are similarly
required to test units using the DOE test procedure to show compliance
with the 2009 standards levels as of January 1, 2012. 74 FR 1093 (Jan.
9, 2009); 10 CFR 431.66(d)). The current DOE test procedure references
AHRI Standard 1200-2006 and AHAM HRF-1-2004. This test procedure
consists of one 24-hour test at standard rating conditions to determine
daily energy consumption.
The updated versions of AHRI Standard 1200-2010 and AHAM HRF-1-2008
do not vary substantially from the previously referenced versions.
Aligning the DOE test procedure with the most recent industry test
procedures currently in use--AHRI standard 1200-2010 and AHAM HRF-1-
2008--simplifies testing requirements and reduces the burden of testing
for both small and large manufacturers.
For equipment that is sold with night curtains installed, the
current test procedure requires one 24-hour test that does not account
for the energy savings associated with night curtain deployment. The
amended test procedure adopted in this final rule incorporates
provisions to account for the energy savings associated with night
curtain deployment. The night curtain test procedure requires the night
curtain to be pulled down for 6 hours during the test. DOE believes the
incremental burden of pulling down the night curtain at a certain time
and retracting it 6 hours later requires less than half a minute each
and is not significant relative to the burden of conducting the test.
Thus, DOE has determined that the testing costs for CRE models with
added night curtains are approximately the same as those for models
without night curtains and concludes there are no significant
incremental costs associated with testing models with night curtains.
For units sold with lighting occupancy sensors and scheduled
controls installed, no additional testing or measurements will be
required. Manufacturers will be permitted to use a calculation method
to determine the energy savings due to lighting occupancy sensors and
scheduled controls. DOE believes that these additional calculations
will only require approximately 30 minutes of additional time. These
calculations are straightforward and similar to the calculations for
alternate component energy consumption, which are part of the existing
test procedure. When compared to the burden associated with the
physical testing segment of the procedure, the additional calculations
required by the lighting occupancy sensor and scheduled control
requirements will not significantly increase the total burden of the
test. Thus, DOE believes that the additional calculations for lighting
occupancy sensors and controls will not significantly increase the
burden of test for manufacturers of covered equipment. Also, DOE notes
that manufacturers may optionally incorporate the testing of lighting
occupancy sensors and controls into the physical test. In this case,
manufacturers would be required to turn off and turn on the lights once
each during the 24-hour test. DOE believes these additional steps would
involve negligible effort in comparison to the burden associated with
conducting the complete test and, thus, the incremental increase in
burden would be negligible.
For equipment that cannot be tested at the specified integrated
average rating temperature for its respective equipment class,
manufacturers are currently required to test the unit using AHRI
Standard 1200 at the specified test temperature. Under the adopted
revisions, these manufacturers will be allowed to test units that
cannot meet the specified test temperature for their equipment class at
the lowest application product temperature, with the only difference
being the integrated average temperature. Because the same test will be
performed for cases that cannot be tested at the prescribed rating
temperature and must be tested at lowest application product
temperature, as compared to cases that are tested at DOE's prescribed
rating temperature, DOE believes that this method will not increase the
burden of test for those manufacturers and is likely to lead to more
representative energy consumption values. DOE notes that the AHRI
Standard 1200-2010 test is often already performed by manufacturers for
participation in voluntary programs, independent collection of energy
consumption information, or other reasons.
In this test procedure final rule, DOE is also allowing
manufacturers to test at the internal temperatures and/or ambient
conditions required for NSF-7 testing. This could dramatically reduce
the burden for manufacturers that produce equipment for food storage,
as under the amended test procedure these two 24-hour tests can be
combined. The NSF-7 test is similar in length and burden to the DOE
test, but is performed at slightly different internal and external
temperatures. Certification of equipment tested at NSF-7 test
temperatures for the purposes of compliance with DOE energy
conservation standards will only be possible for equipment that is able
to meet the DOE energy conservation standard at the more stringent NSF-
7 test conditions. However, DOE believes this provision can still
potentially decrease the burden of test for some manufacturers.
The amendments to the test procedure for commercial refrigeration
equipment were chosen to help minimize the impact of additional testing
while updating the DOE test procedure to include the most current
versions of industry standards, capture new energy efficiency
technologies, and provide more accurate test methods for equipment that
cannot be tested at the currently prescribed integrated average rating
temperature. Because none of these amendments significantly increase
the burden of a test, DOE believes that the test procedure finalized
here will not be unduly burdensome to conduct.
For further discussion of the economic impact of additional testing
on small CRE manufacturers, the entities that will be the most impacted
by additional testing requirements, please see section IV.B of this
final rule.
[[Page 10311]]
a. Determination of Basic Models in the Context of Night Curtain and
Lighting Occupancy Sensor and Scheduled Control Test Provisions
In the November 2010 NOPR, DOE proposed that if a unit is tested
and demonstrates compliance with the relevant energy conservation
standard without night curtains or lighting occupancy sensors
installed, that unit can also be sold with night curtains or lighting
occupancy sensors installed without additional testing. DOE proposed
this same provision for lighting occupancy sensors and controls in
order to minimize the testing burden on manufacturers and because DOE
believed that the addition of night curtains and lighting occupancy
sensors and controls would only decrease energy consumption. If,
however, a piece of equipment does not meet DOE's energy conservation
standards without night curtains (or lighting controls) installed, DOE
proposed to require the unit to be tested with night curtains (or
lighting controls) installed. In this instance, assuming the energy
conservation standard is met, the equipment would also be required to
be sold with night curtains (or lighting controls) installed. 75 FR
71600 (Nov. 24, 2010). However, if a manufacturer wishes to publicize
the certified ratings of a unit with night curtains (or lighting
controls) installed, that energy consumption value must be determined
using the DOE test procedure and applicable sampling plans. (42 U.S.C.
6314(d)) In addition, the energy consumption of this basic model must
be certified. 76 FR 12422, 12453 (March 7, 2011).
Coca-Cola commented that a manufacturer could sell a case with a
lighting controller installed without testing the case to prove the
energy savings as long as it made no claims regarding energy savings.
Coca-Cola further commented that performing the additional tests could
be burdensome for the manufacturer and should remain optional. (Coca-
Cola, No. 19 at p. 243) However, California Codes and Standards
commented that the additional burden to calculate, or test, with and
without occupancy sensors seemed minimal and that perhaps it should be
required. (California Codes and Standards, No. 19 at p. 250) NRDC
encouraged DOE to require manufacturers of open cases with night
curtains to test them with the curtains deployed for 6 hours as
proposed, and to require labeling of equipment accordingly to explain
the relevant efficiency features to potential buyers. (NRDC, No. 14 at
p. 2) Similarly, NEEA disagreed with DOE's proposal to allow night
curtains to be used to establish compliance in units that are
noncompliant without night curtains. (NEEA, No. 8 at p. 4)
Coca-Cola agreed with DOE's proposal to allow manufacturers the
option of testing with night curtains. (Coca-Cola, No. 19 at p. 243)
This provision would require that cases be tested with night curtains
if (1) the case without night curtains does not meet the energy
conservation standard; or (2) the manufacturer wishes to publicize the
energy consumption of the case with night curtains installed. In
response to California Codes and Standards and NRDC's comments
regarding the requirement of units sold with night curtains to be
tested with night curtains, DOE has adopted the provision to allow
cases that meet DOE's energy conservation standard without night
curtains to be sold with and without night curtains to minimize burden
on manufacturers.
Furthermore, implementation of night curtains will only improve
energy efficiency of the equipment. This is consistent with the
provisions for grouping into basic model families established in the
certification, compliance, and enforcement (CCE) final rule. (CCE final
rule; 76 FR 12422, 12423 (March 7, 2011)). These provisions allow
manufacturers to group individual models with essentially identical,
but not exactly the same, energy performance characteristics into a
basic model to reduce testing burden. Under DOE's certification
requirements, all the individual models within a basic model identified
in a certification report as being the same basic model must have the
same certified efficiency rating and use the same test data underlying
the certified rating. The CCE final rule also establishes that the
efficiency rating of a basic model must be based on the least efficient
or most energy consuming individual model, or, put another way, all
individual models within a basic model must be at least as good as the
certified rating. 76 FR 12428-29 (March 7, 2011). Because night
curtains would only serve to decrease energy consumption or increase
energy efficiency of commercial refrigeration equipment, DOE believes
the provisions for optionally testing cases with night curtains if the
case without night curtains meets the energy conservation standard for
its equipment class ensures that all equipment sold meets DOE's energy
conservation standards and minimizes burden on manufacturers. This same
argument applies to the testing provisions for cases with lighting
occupancy sensor and/or scheduled lighting controls installed. DOE
notes that manufacturers are free to test a case both with and without
night curtains (or lighting occupancy sensors and/or lighting controls)
to establish separate efficiency ratings and must do so if they wish to
make representations of both values.
Regarding NEEA's comment criticizing the fact that testing of cases
with night curtains could be used to certify otherwise noncompliant
equipment, DOE sets performance standards, but cannot control or
restrict what design options or technologies a manufacturer chooses to
employ to meet a certain standard level. Thus, like any other design
option, manufacturers may employ night curtains as a means to increase
efficiency of a case to meet DOE's energy conservation standards.
b. Estimates of Burden
In the initial regulatory flexibility analysis (IRFA), presented in
the November 2010 NOPR, DOE quantified the incremental burden on small
manufacturers and certified that this rulemaking, as proposed, would
not have a significant impact on a substantial number of small
entities. 75 FR 71596, 71606-08 (Nov. 24, 2010). In the IRFA, DOE
presented several estimates of the cost of testing and the number of
small U.S. commercial refrigeration equipment manufacturers. DOE
estimated testing costs to be approximately $5,000 per unit to conduct
the baseline test, as outlined in AHRI 1200-2010. 75 FR 71607 (Nov. 24,
2010). In response to these estimates, Southern Store Fixtures,
Traulsen, and Hussmann all commented that the cost of testing is
actually much greater than $5,000. (Southern Store Fixtures, No. 19 at
p. 237; Traulsen, No. 19 at p. 238; Hussmann, No. 19 at p. 238)
Traulsen stated that an estimate for total cost of testing a unit,
including shipping, product costs, etc., would be $15,000. (Traulsen,
No. 9 at p. 8) NEEA agreed with other interested parties that stated
that DOE's estimate of $5,000 for testing a unit was likely too low.
However, NEEA also stated that, based on its own experience, the cost
of additional testing of a model is not nearly double the cost of the
first test, since the unit is only shipped and set up once. Thus,
according to NEEA, additional tests would only slightly add to the
burden of testing. (NEEA, No. 8 at p. 7) NEEA stated that it did not
believe DOE's proposal to be overly burdensome, as in every instance
only one 24-hour test should be required for a given piece of
equipment. (NEEA, No. 8 at p. 7)
Traulsen stated that it believes DOE's estimate of 22 small
businesses in the
[[Page 10312]]
CRE manufacturing sector to be too low, and that it believes most or
even all CRE manufacturers employ fewer than 750 employees if
subsidiaries of larger companies are considered as independent business
units. Traulsen submitted a list of 39 brands or manufacturers of
commercial refrigeration equipment. (Traulsen, No. 9 at pp. 4-5)
Southern Store Fixtures commented that the proposed test procedure
would impact its operation. (Southern Store Fixtures, No. 19 at p. 253)
Traulsen stated that equipment sampling provisions and the increasing
scope of standards are causing testing costs to increase significantly
and, according to Traulsen, the company's marginal costs incurred as a
result will be approximately $250,000 per year. (Traulsen, No. 9 at pp.
1-2) Zero Zone commented that applying additional tests is only easy if
it is known that these tests must be performed when the unit is
originally tested. Re-testing of units is much more burdensome than
adding additional tests to a unit being tested, as re-testing requires
that the test setup be re-installed and calibrated. Zero Zone also
commented that, while the test procedure changes will not have a
significant impact on a substantial number of small entities, the
addition of DOE regulations to existing regulations will create a
barrier to entry into the market for small start-up companies. (Zero
Zone, No. 16 at pp. 1-2)
DOE has attempted to minimize the burden on manufacturers by
keeping all test procedure amendments confined to the existing single
24-hour test. Thus, the test procedure amendments should not
significantly increase the burden of testing a piece of equipment
covered under the rule.
DOE appreciates the information related to cost of testing and the
number of small businesses covered by this rule. DOE has considered
these new numbers in revising the regulatory flexibility analysis.
However, DOE notes that the costs cited by manufacturers represent the
cost to conduct the AHRI 1200 test, which is required by both the
existing test procedure and the new amended test procedure. Thus, the
$15,000 test burden is not an incremental cost associated with this
test procedure final rule. The incremental cost to test a piece of
commercial refrigeration equipment covered under this rulemaking will
not increase significantly because the amendments in this final rule do
not significantly impact the time, labor, or materials required to
conduct a test. Because the testing burden will not increase
significantly as a result of this rule, DOE believes the incremental
impact on small businesses will be small. DOE's revised final
regulatory flexibility analysis can be found in section IV.
c. Coordination with ENERGY STAR
Traulsen expressed concern that increased requirements for third-
party testing and compliance with DOE and U.S. Environmental Protection
Agency (EPA) programs are escalating the burden on manufacturers.
(Traulsen, No. 9 at pp. 1-2) Traulsen also commented that the most
significant improvement DOE could make in terms of reducing burden for
manufacturers would be to align DOE and ENERGY STAR testing and
reporting requirements. (Traulsen, No. 5 at p. 254) Traulsen and True
commented that ENERGY STAR is currently requiring equipment to be
tested ``out of the box,'' including testing at the product temperature
at which the unit is shipped. (Traulsen, No. 19 at p. 195; True, No. 19
at p. 198) Traulsen explained how this requirement has created issues
because it ships its cases at an internal temperature set point of
34[emsp14][deg]F for marketing reasons, which may create problems when
the cases are tested at that temperature. Traulsen asked if DOE was
also going to be requiring the testing of cases ``out of the box''
without adjusting the integrated average temperature set point.
(Traulsen, No. 19 at p. 195) NEEA commented it had been involved with
ENERGY STAR since its inception and that it is not possible to test
units out of the box, and that ``out of the box'' simply means that the
unit is not specially fabricated or adjusted. (NEEA, No. 19 at p. 198)
Traulsen stated that DOE must ensure that the test procedure allows for
adjustment of the equipment to the test set points, as ``out of the
box'' set points may not be 38[emsp14][deg]F. Traulsen further stated
that this would differ from EPA testing, where units must be tested as
is, out of the box. (Traulsen, No. 9 at p. 7)
DOE attempts, to the extent possible, to minimize duplicative
reporting or testing requirements. Further, this final rule does not
require ``out of the box'' testing as interpreted by Traulsen. All
equipment tested for the purposes of compliance with DOE energy
conservation standards must be tested using the DOE test procedure. DOE
is working with EPA to ensure that the test procedures for commercial
refrigeration equipment for the regulatory program and the ENERGY STAR
program are the same.
5. Association With Compliance, Certification, and Enforcement
Regulations
Interested parties inquired as to how the provision allowing
equipment that complies with the energy conservation standard to be
sold with and without night curtains (or lighting controls) without
being retested relates to the concurrent CCE rulemaking. 76 FR 12422
(March 7, 2011). AHRI commented that there was a disconnect between
what is being proposed in the CCE rulemaking and the provisions for
testing night curtains and lighting control devices in the November
2010 NOPR. (AHRI, No. 19 at p. 254) AHRI also commented that because of
issues related to compliance and claiming energy savings from night
curtains without testing, manufacturers were going to be required to
test cases twice. (AHRI, No. 19 at p. 216) NEEA added that utility
programs and ENERGY STAR will require certified values for inclusion in
their programs. (NEEA, No. 19 at p. 162) Coca-Cola inquired whether a
unit that had been tested without night curtains had to be certified
with night curtains under the current CCE requirements. (Coca-Cola, No.
19 at p. 161) Heatcraft inquired whether the provision for selling
commercial refrigeration equipment with and without night curtains if
the unit met DOE's energy conservation standards without night curtains
installed could apply to other components, such as a unit that was sold
with a permanent split capacitor or evaporative condensed screw
condenser fan. (Heatcraft, No. 19 at p. 155)
In response to AHRI's comment that the proposal for testing and
certifying units with night curtains may conflict with the CCE
rulemaking (76 FR 12422 (March 7, 2011)), DOE notes that testing of
equipment with or without night curtains is not required because there
are currently no Federal prescriptive standards that include night
curtains and no test procedure to quantify their effect on equipment
energy consumption. DOE believes that the test procedure established in
this final rule for units equipped with night curtains and/or lighting
occupancy sensors and scheduled lighting controls does not conflict
with the CCE requirements that DOE published in the CCE final rule. 76
FR 12423 (March 7, 2011). Specifically, as mentioned above,
implementation of night curtains (or lighting occupancy sensors and/or
controls) will only reduce the reported energy consumption of the
equipment and is consistent with the basic model provisions,
established
[[Page 10313]]
in the CCE final rule. 76 FR 12428-29 (March 7, 2011).
Thus, in this final rule DOE is adopting provisions that allow
units equipped with night curtains and/or lighting occupancy sensors
and controls to be tested. As described in the CCE final rule, DOE
allows CRE manufacturers to group individual models into basic models
for the purposes of testing and certification. 76 FR 12428-29 (March 7,
2011). A manufacturer may group individual models with and without
night curtains into one basic model provided that the certified ratings
of all individual models in the group are identical and representative
of the least efficient individual model within the basic model (i.e.,
the most consumptive model without night curtains). Today's final rule
also provides that if manufacturers wish to make representations
regarding reduced energy consumption associated with any feature, such
as night curtains, manufacturers must use multiple basic models to
distinguish between those with and without night curtains and the
certified ratings of energy consumption must be developed either
through testing or calculations as permitted by this final rule.
Regarding Heatcraft's comment, manufacturers have some discretion
regarding how to rate units with permanent split capacitor or
evaporative condensed screw condenser fans. Manufacturers may group
individual models, with different condenser fans or other features,
into a single basic model to show compliance with DOE's energy
conservation standards, provided all models identified in a
certification report as being the same basic model must have the same
certified efficiency rating, which is based on the least efficient
model. 76 FR 12428-29 (March 7, 2011).
a. Test Tolerances
In comments received during the November 2010 NOPR public comment
period, Traulsen stated that the proposal presented by DOE does not
address tolerances, but that many components have tolerances of 10 to
15 percent, and that test laboratories recognize variations of 5 to 10
percent. Traulsen suggested a 20 percent tolerance on standards
testing. (Traulsen, No. 9 at pp. 7-8) DOE's current test tolerances for
commercial refrigeration equipment were established in the CCE final
rule and are based on a specified sampling plan and statistical
variances approximated with a Student's t-distribution. 76 FR 12430
(March 7, 2011). Amendment of these tolerances, sampling plans, or
other items related specifically to CCE activities for commercial
refrigeration equipment are not addressed in this test procedure final
rule.
6. Alternative Refrigerants
At the January 2011 NOPR public meeting, DOE received several
comments regarding alternative refrigerants. AHRI stated that there is
proposed legislation (unspecified) that would require the phase down of
hydrofluorocarbons, which would require the use of alternative
refrigerants in commercial refrigeration equipment, and suggested that
DOE assess the performance of different refrigerants. (AHRI, No. 19 at
p. 22) California Codes and Standards commented that DOE should address
the burden of testing the same piece of equipment when different
refrigerants are used. (California Codes and Standards, No. 19 at pp.
16-17)
True commented that if the refrigerant in a case changes, the
evaporator coil, the expansion valve, and several other components
would also have to change, which would effectively change the entire
system. (True, No. 19 at pp. 19-20) Coca-Cola also commented that
different refrigerants are not used in the same case. Coca-Cola further
stated that different refrigerants work better at different
temperatures, which is one reason the cabinets are treated separately.
(Coca-Cola, No. 19 at pp. 20-21)
DOE agrees with Traulsen and Coca-Cola that if a different
refrigerant were used in a case, it would require a new case design.
Thus, cases with different refrigerants should be treated as different
basic models and will require separate tests regardless. The DOE test
procedure finalized here is capable of testing units using any primary
refrigerant that enters and leaves the case as a single phase. However,
each unit employing a different refrigerant would be treated as an
individual basic model because of the different design considerations
and performance characteristics. DOE acknowledges AHRI's comment
suggesting that there may be proposed legislation which would influence
the availability of hydroflourocarbon refrigerants; however this
legislation is not in place and DOE does not wish to speculate on the
specific requirements or impacts of any such legislation.
7. Secondary Coolant Systems
In the January 2009 final rule, DOE determined secondary coolant
systems to be outside the scope of that rulemaking because secondary
coolant systems constitute a small market share and there is no
industry test procedure that covers all secondary coolant systems in
the market. 74 FR 1105 (Jan. 9, 2009). Neither of these factors has
changed significantly since the January 2009 final rule and, thus, DOE
will continue to exclude secondary coolant systems from this test
procedure and the concurrent energy conservation standards rulemaking
(Docket No. EERE-2010-BT-STD-0003).
Nevertheless, several interested parties commented regarding
secondary coolant systems at both the January 2011 NOPR public meeting
and the April 2011 Preliminary Analysis public meeting. At the January
2011 NOPR public meeting, AHRI stated that secondary coolant systems
are excluded from AHRI 1200, but that AHRI is in the process of
developing a relevant standard that would be issued soon. (AHRI, No. 19
at p. 58) True commented that secondary coolant systems are very
difficult to test and are not covered by ASHRAE Standard 72. True added
that the ASHRAE Standard 72 committee is reviewing test methods for
secondary coolant systems, but currently there is no definitive,
repeatable test method. (True, No. 19 at pp. 17-18) True stated that
the ASHRAE Standard 72 committee is also working to incorporate test
methods for secondary coolant equipment, but so far has found the
variability of results in the currently available test methods quite
large. True added that a revised standard would probably not be ready
for inclusion in the DOE test procedure. (True, No. 19 at pp. 58-59)
Traulsen agreed that it does not believe that secondary coolant systems
can be effectively tested and rated. (Traulsen, No. 9 at p. 6)
California Codes and Standards agreed with DOE's proposed exclusion of
secondary coolant systems from the test procedure because it believed
that coverage of them by DOE at this time could result in a hastily
developed regulation, which would also pre-empt States from regulating
such systems themselves. In addition, California Codes and Standards
stated that because there is no test method in place and thus no data,
more data must be collected prior to developing any standard levels for
this equipment. (California Codes and Standards, No. 13 at p. 4) NEEA
agreed with DOE's plan to exclude secondary coolant equipment from this
round of rulemaking, citing the fact that there is currently no
industry test procedure for this equipment. Instead, NEEA encouraged
DOE to plan to address this equipment in the next rulemaking,
potentially by including a ``reserved''
[[Page 10314]]
section in this notice. (NEEA, No. 8 at p. 2)
ACEEE expressed concern about the lack of coverage of secondary
coolant systems, stating that hydrochlorfluorocarbon phase-downs and
other factors are increasing the attention paid to these sorts of
systems. Not regulating these systems, in the opinion of ACEEE, will
prevent customers from being able to fairly compare them with existing
systems. However, ACEEE conceded that it is not clear how to make
accommodations in the test procedure to cover such equipment. At a
minimum, ACEEE agreed with NEEA that placeholders for the systems
should be inserted into the rule. (ACEEE, No. 12 at p. 3) True
similarly expressed that secondary loop systems, often with carbon
dioxide (CO2), are becoming more common, which offers an
environmental emissions improvement but can result in decreased energy
efficiency. (True, No. 19 at pp. 17-18)
California Codes and Standards stated that the State of California
is considering incorporating secondary loop CO2 systems as
part of its building standards, and will be addressing both energy
efficiency and greenhouse gas emissions. (California Codes and
Standards, No. 19 at pp. 18-19) ACEEE stated that manufacturers would
likely prefer that secondary coolant systems be covered by a DOE rule,
as excluding them would allow States to publish their own standards.
(ACEEE, No. 12 at p. 3)
At the April 2011 Preliminary Analysis public meeting, interested
parties also commented regarding the lack of an industry-accepted test
procedure for secondary coolant systems. True stated that existing test
methods for secondary coolant systems work only for systems for which
there is not a phase change and test methods for transcritical or
slurry systems have yet to be developed or verified. (Docket No. EERE-
2010-BT-STD-0003, True, No. 31 at p. 162-63) Southern Store Fixtures
stated that AHRI has recently developed a test procedure for secondary
coolant systems, but that it is only applicable to fully liquid systems
and does not accommodate two-phase flow. (Docket No. EERE-2010-BT-STD-
0003, Southern Store Fixtures, No. 31 at p. 165) AHRI added that its
work with secondary coolant applications is linked to ASHRAE's work,
and that it too would have to wait for ASHRAE to produce a method of
test (Docket No. EERE-2010-BT-STD-0003, AHRI, No. 31 at pp. 165-66)
Traulsen agreed with DOE that secondary coolant technologies have not
matured to the point where regulatory oversight would be required or
beneficial. (Docket No. EERE-2010-BT-STD-0003, Traulsen, No. 31 at p.
5)
DOE previously excluded secondary coolant systems in the January
2009 final rule, in part, because there were no established test
procedures to evaluate their energy consumption. As AHRI mentioned,
secondary coolant systems are still excluded from AHRI 1200-2010. In
December 2011, AHRI published AHRI Standard 1320 (I-P)-2011,
``Performance Rating of Commercial Refrigerated Display Merchandisers
and Storage Cabinets for Use with Secondary Refrigerants.'' However, as
interested parties noted, this new standard specifies a reference
working fluid and is applicable only to the portion of secondary
coolant systems that use secondary coolants with similar
characteristics. Specifically, this standard will not be applicable to
transcritical CO2, brine, or ammonia secondary coolant
systems. The ASHRAE Standard 72 committee is also considering a method
of testing to evaluate secondary coolant systems, including
transcritical CO2 systems; however, this standard was not
available in time for this rulemaking.
DOE agrees with many of the interested parties that testing
secondary coolant systems accurately will be difficult and an accepted
and vetted method to do so does not yet exist. Given this uncertainty
and the small market share of this equipment, DOE believes it best to
continue to exclude secondary coolant systems from the DOE test
procedure; however, DOE will continue to consult with ASHRAE and AHRI
regarding the development of a future test procedure for secondary
coolant systems. In the next DOE test procedure revision, DOE will
reassess the status and accuracy of industry test procedures for
secondary coolant systems and, if available, could include the test
procedures in the DOE test procedure at that time. Since it is not
clear when a reliable and vetted test procedure for transcritical
secondary coolant systems will be available, DOE does not wish to
reserve a section in this test procedure final rule.
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 OMB.
B. Review Under the Regulatory Flexibility Act
The Regulatory Flexibility Act (5 U.S.C. 601 et seq.) requires
preparation of an IRFA whenever an agency is required to publish a
general notice of proposed rulemaking. When an agency promulgates a
final rule after being required to publish a general notice of proposed
rulemaking, the agency must prepare a final regulatory flexibility
analysis (FRFA). The requirement to prepare these analyses does not
apply to any proposed or final rule if the agency certifies that the
rule will not, if promulgated, have a significant economic impact on a
substantial number of small entities. If the agency makes such a
certification, the agency must publish the certification in the Federal
Register along with the factual basis for such certification.
As required by Executive Order 13272, ``Proper Consideration of
Small Entities in Agency Rulemaking,'' 67 FR 53461 (Aug. 16, 2002), DOE
published procedures and policies on February 19, 2003, so that the
potential impacts of its rules on small entities are properly
considered during the rulemaking process. 68 FR 7990 (Feb. 12, 2003).
DOE has made its procedures and policies available on the Office of the
General Counsel's Web site at www.gc.doe.gov.
In the November 2010 NOPR, DOE reviewed the proposed rule to amend
the test procedure for commercial refrigeration equipment, under the
provisions of the Regulatory Flexibility Act and the procedures and
policies published on February 19, 2003. DOE certified that the
proposed rule, if adopted, would not result in a significant impact on
a substantial number of small entities. DOE received comments on its
certification and the economic impacts of the test procedure, and has
responded to these comments in section III.B.4. After consideration of
these comments, DOE certifies that the test procedure amendments set
forth in this final rule will not have a significant impact on a
substantial number of small entities. The factual basis for this
certification is set forth below.
For the CRE manufacturing industry, the Small Business
Administration (SBA) has set a size threshold, which defines those
entities classified as ``small businesses'' for the purpose of the
statute. DOE used the SBA's size standards to determine whether any
small entities would be required to
[[Page 10315]]
comply with the rule. The size standards are codified at 13 CFR part
121. The standards are listed by North American Industry Classification
System (NAICS) code and industry description and are available at
www.sba.gov/sites/default/files/Size_Standards_Table.pdf. CRE
manufacturers are classified under NAICS 333415, ``Air-Conditioning and
Warm Air Heating Equipment and Commercial and Industrial Refrigeration
Equipment Manufacturing.'' The SBA sets a threshold of 750 employees or
less for an entity to be considered as a small business for this
category.
DOE conducted a focused inquiry into small business manufacturers
of equipment covered by this rulemaking. During its market survey, DOE
used all available public information to identify potential small
manufacturers. DOE's research involved the review of industry trade
association membership directories (including AHRI), equipment
databases (e.g., Federal Trade Commission (FTC), the Thomas Register,
California Energy Commission (CEC), and ENERGY STAR databases),
individual company Web sites, and marketing research tools (e.g., Dunn
and Bradstreet reports, Manta) to create a list of companies that
manufacture or sell commercial refrigeration equipment covered by this
rulemaking. DOE also referred to a list of small businesses that
manufacture commercial refrigeration equipment, supplied by Traulsen in
a written comment. (Traulsen, No. 9 at pp. 4-5) Using these sources,
DOE identified 61 manufacturers of commercial refrigeration equipment.
DOE then reviewed this data to determine whether the entities met
the SBA's definition of a small business manufacturer of commercial
refrigeration equipment and screened out companies that do not offer
equipment covered by this rulemaking, do not meet the definition of a
``small business,'' or are foreign owned and operated. Based on this
review, DOE has identified 26 companies that would be considered small
manufacturers. DOE had originally identified 22 manufacturers of
commercial refrigeration equipment. 75 FR 71596, 71606-07 (Nov. 24,
2010). DOE referred to the list supplied by Traulsen to revise its
estimate of the number of small entities considered in this rule.
(Traulsen, No. 9 at pp. 4-5)
Table IV.1 stratifies the small businesses according to their
number of employees. The smallest company has 6 employees and the
largest company has 400 employees. The majority of the small businesses
affected by this rulemaking (85 percent) have fewer than 200 employees.
Annual revenues associated with these small manufacturers were
estimated at $569.3 million ($21.9 million average annual sales per
small manufacturer). According to DOE's analysis, small entities
comprise 43 percent of the entire commercial refrigeration equipment
manufacturing industry.
Table IV.1--Small Business Size by Number of Employees
----------------------------------------------------------------------------------------------------------------
Number of Percentage of
Number of employees small small Cumulative
businesses businesses percentage
----------------------------------------------------------------------------------------------------------------
1-10............................................................ 4 15.4 15.4
11-20........................................................... 3 11.5 26.9
21-30........................................................... 2 7.7 34.6
31-40........................................................... 1 3.8 38.5
41-50........................................................... 2 7.7 46.2
51-60........................................................... 1 3.8 50.0
61-70........................................................... 1 3.8 53.8
71-80........................................................... 2 7.7 61.5
81-90........................................................... 0 0.0 61.5
91-100.......................................................... 1 3.8 65.4
101-110......................................................... 1 3.8 69.2
111-120......................................................... 0 0.0 69.2
121-130......................................................... 2 7.7 76.9
131-140......................................................... 0 0.0 76.9
141-150......................................................... 0 0.0 76.9
151-200......................................................... 2 7.7 84.6
201-300......................................................... 3 11.5 96.2
301-400......................................................... 1 3.8 100.0
401-750......................................................... 0 0.0 100.0
-----------------------------------------------
Total....................................................... 26 .............. ..............
----------------------------------------------------------------------------------------------------------------
All commercial refrigeration equipment for which standards were set
in EPACT 2005 are currently required to be tested using the DOE test
procedure to show compliance with the EPACT 2005 standard levels.
Manufacturers of equipment for which standards were set in the January
2009 final rule will similarly be required to test units using the DOE
test procedure to show compliance with the 2009 standards levels
beginning January 1, 2012. The current DOE test procedure references
AHRI Standard 1200-2006 and AHAM HRF-1-2004. This test procedure
consists of one 24-hour test at standard rating conditions to determine
daily energy consumption.
In the November 2010 NOPR, DOE estimated the cost of conducting the
DOE test procedure as $5,000 per 24-hour test. 75 FR 71607 (Nov. 24,
2010). DOE received comments from interested parties presenting cost
estimates of $15,000 per test. (Southern Store Fixtures, No. 19 at p.
237; Hussmann, No. 19 at p. 238; Traulsen, No. 9 at p. 8; NEEA, No. 8
at p. 7) DOE revised its analysis using a cost of $15,000 per 24-hour
test, as suggested by interested parties. DOE notes that $15,000
represents the cost of conducting the current DOE test procedure, not
the incremental cost associated with the amendments in this final rule.
In this final rule, DOE is adopting amendments that align the DOE
test procedure with the most recent industry test procedures currently
in use (AHRI Standard 1200-2010 and AHAM HRF-1-2008); incorporate
provisions for testing certain energy efficiency features, including
night curtains and lighting occupancy sensor and
[[Page 10316]]
scheduled controls; and provide a test procedure for specialty
equipment that cannot be tested at the prescribed rating temperature.
The updated standards referenced in this test procedure final rule,
namely AHRI Standard 1200-2010 and AHAM HRF-1-2008, are not
substantially different from those referenced in the current DOE test
procedure. DOE estimates that the amended test procedure will still
require 24 hours to conduct and cost approximately $15,000 per test.
For cases with night curtains installed, manufacturers can now take
advantage of the reduced energy consumption associated with night
curtains in the DOE test procedure. The night curtain provisions in the
test procedure require the night curtain to be pulled down for 6 hours
during the test. DOE believes the incremental burden of pulling down
the night curtain at a certain time and retracting it 6 hours later
requires less than half a minute each and is not significant relative
to the burden of conducting the test. Although there is a small labor
requirement associated with pulling down night curtains, DOE believes
this is not an incremental burden because conducting the test already
requires personnel to be present to check temperature probes and
monitor the status of the test. Thus, DOE has determined that the
testing costs for CRE models with added night curtains are
approximately the same as those for models without night curtains and
therefore concludes there are no significant incremental costs
associated with testing models with night curtains.
The amendments in this final rule allowing calculations to quantify
the energy savings associated with lighting occupancy sensors and
controls will not lead to significant additional testing burden. DOE
estimates the minimal costs associated with conducting the necessary
calculations as $26.67 per test. DOE bases its estimate on the
assumption that it would take an engineer 30 minutes to perform the
calculation. The average hourly salary for an engineer completing this
task is estimated at $38.74.\25\ Fringe benefits are estimated at 30
percent of total compensation, which brings the hourly costs to
employers to $55.34.\26\ As this incremental cost represents 0.4
percent of the total testing cost for a unit, DOE believes this
increase is not significant.
---------------------------------------------------------------------------
\25\ U.S. Department of Labor, Bureau of Labor Statistics. 2009.
National Occupational Employment and Wage Estimates. Washington, DC.
\26\ U.S. Department of Labor, Bureau of Labor Statistics. 2010.
Employer Costs for Employee Compensation--Management, Professional,
and Related Employees. Washington, DC.
---------------------------------------------------------------------------
For equipment that cannot be tested at the prescribed integrated
average product temperature, manufacturers currently are required to
test the unit using AHRI Standard 1200 at the integrated average
temperature associated with their respective equipment class. Under the
revisions adopted in this final rule, these manufacturers will be
allowed to test units that cannot meet the prescribed rating
temperature at the lowest application product temperature, with the
only difference being the integrated average product temperature. Since
the same test is performed in both cases, DOE believes that this
amendment to the test procedure will not increase the burden of test
for those manufacturers. In addition, the provision for testing units
that cannot operate at the specified integrated average product
temperature will affect only a small percentage of units. DOE believes
there would not be an incremental increase in testing burden, for small
or large manufacturers, due to this provision.
DOE also notes that, if a unit is tested and shows compliance with
the relevant energy conservation standard without night curtains or
lighting occupancy sensors and scheduled controls installed, that unit
can also be sold with these efficiency features installed without
additional testing. DOE believes this provision will reduce burden on
manufacturers.
Because there is not a significant incremental burden associated
with any of the individual amendments adopted in this final rule, DOE
concludes that there is not a significant incremental burden associated
with the test procedure amendments in this final rule. In fact, the
burden of conducting the amended test procedure is almost identical to
the burden of conducting the existing DOE test procedure. Since there
is no incremental burden associated with the amended test procedure,
DOE has determined that this test procedure final rule does not impose
negative economic impacts on manufacturers, including small entities.
Thus, DOE continues to certify that this rule will not have a
``significant economic impact on a substantial number of small
entities,'' and the preparation of a regulatory flexibility analysis is
not warranted. DOE has transmitted the certification and supporting
statement of factual basis to the Chief Counsel for Advocacy of the
Small Business Administration for review under 5 U.S.C. 605(b).
C. Review Under the Paperwork Reduction Act of 1995
Manufacturers of commercial refrigeration equipment must certify to
DOE that their equipment complies with any applicable energy
conservation standards. In certifying compliance, manufacturers must
test their equipment according to the DOE test procedure for commercial
refrigeration equipment, including any amendments adopted for the test
procedure. DOE has established regulations for the certification and
recordkeeping requirements for all covered consumer products and
commercial equipment, including commercial refrigeration equipment. 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. Public
reporting burden for the certification is estimated to average 20 hours
per response, including the time for reviewing instructions, searching
existing data sources, gathering and maintaining the data needed, and
completing and reviewing the collection of information.
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 commercial
refrigeration equipment. 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.
[[Page 10317]]
E. Review Under Executive Order 13132
Executive Order 13132, ``Federalism,'' 64 FR 43255 (Aug. 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 various levels of
government. EPCA governs and prescribes Federal preemption of State
regulations as to energy conservation for the equipment that is 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 www.gc.doe.gov. 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.
Today's 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.
Today's 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
[[Page 10318]]
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 NOPR 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 FTC concerning the impact of the
commercial or industry standards on competition.
The proposed rule incorporates testing methods contained in the
following commercial standards: (1) AHAM HRF-1-2008, which supersedes
ANSI/AHAM HRF-1-2004, ``Energy and Internal Volume of Refrigerating
Appliances,'' including errata issued November 17, 2009, section 3.30,
``Volume,'' and sections 4.1 through 4.3, ``Method for Computing
Refrigerated Volume of Refrigerators, Refrigerator-Freezers, Wine
Chillers and Freezers,'' in 10 CFR 431.64(b)(3) and 431.66(a)(1); and
(2) AHRI Standard 1200-2010, which supersedes ARI Standard 1200-2006,
``Performance Rating of Commercial Refrigerated Display Merchandisers
and Storage Cabinets,'' section 3, ``Definitions,'' section 4, ``Test
Requirements,'' and section 7, ``Symbols and Subscripts,'' in 10 CFR
431.64(b)(1), (b)(2), (b)(4)(i), and (b)(4)(ii), and 431.66(a)(3),
(d)(2) and (3). As stated in the November 2010 NOPR, DOE has evaluated
these standards and is unable to conclude whether they fully comply
with the requirements of section 323(b) of the Federal Energy
Administration Act (i.e., determine that they were developed in a
manner that fully provides for public participation, comment, and
review). 75 FR 71596, 71609 (Nov. 24, 2010). 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).
V. 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 431
Administrative practice and procedure, Confidential business
information, Energy conservation test procedures, Incorporation by
reference.
Issued in Washington, DC, on January 31, 2012.
Kathleen B. Hogan,
Deputy Assistant Secretary, Energy Efficiency and Renewable Energy.
For the reasons stated in the preamble, DOE amends part 431 of
Chapter II of Title 10, Code of Federal Regulations as set forth below:
PART 431--ENERGY EFFICIENCY PROGRAM FOR CERTAIN COMMERCIAL AND
INDUSTRIAL EQUIPMENT
0
1. The authority citation for part 431 continues to read as follows:
Authority: 42 U.S.C. 6291-6317.
0
2. Section 431.62 is amended by adding in alphabetical order the
definitions of ``lighting occupancy sensor,'' ``lowest application
product temperature,'' ``night curtain,'' and ``scheduled lighting
control'' to read as follows:
Sec. 431.62 Definitions concerning commercial refrigerators,
freezers, and refrigerator-freezers.
* * * * *
Lighting occupancy sensor means a device which uses passive
infrared, ultrasonic, or other motion-sensing technology to
automatically turn off or dim lights within the equipment when no
motion is detected in the sensor's coverage area for a certain preset
period of time.
Lowest application product temperature means the integrated average
temperature closest to the specified rating temperature for a given
piece of equipment achievable and repeatable, such that the integrated
average temperature of a given unit is within 2 [deg]F of
the average of all integrated average temperature values for that basic
model.
Night curtain means a device which is temporarily deployed to
decrease air exchange and heat transfer between the refrigerated case
and the surrounding environment.
* * * * *
Scheduled lighting control means a device which automatically shuts
off or dims the lighting in a display case at scheduled times
throughout the day.
* * * * *
0
3. Section 431.63 is amended by adding paragraph (b)(2) and revising
paragraph (c) to read as follows:
Sec. 431.63 Materials incorporated by reference.
* * * * *
(b) * * *
(2) AHAM HRF-1-2008 (``HRF-1-2008''), Association of Home Appliance
Manufacturers, Energy and Internal Volume of Refrigerating Appliances
(2008) including Errata to Energy and Internal Volume of Refrigerating
Appliances, Correction Sheet issued November 17, 2009, IBR approved for
Sec. 431.64.
(c) AHRI. Air-Conditioning, Heating, and Refrigeration Institute,
2111 Wilson Blvd., Suite 500, Arlington, VA 22201, (703) 524-8800,
ahri@ahrinet.org, or https://www.ahrinet.org/Content/StandardsProgram_20.aspx.
(1) ARI Standard 1200-2006, Performance Rating of Commercial
Refrigerated Display Merchandisers and Storage Cabinets, 2006, IBR
approved for Sec. Sec. 431.64 and 431.66.
(2) AHRI Standard 1200 (I-P)-2010 (``AHRI Standard 1200 (I-P)-
2010''), 2010 Standard for Performance Rating of Commercial
Refrigerated Display Merchandisers and Storage Cabinets, 2010, IBR
approved for Sec. 431.64.
0
4. Section 431.64 is amended by revising paragraph (b) to read as
follows:
Sec. 431.64 Uniform test method for the measurement of energy
consumption of commercial refrigerators, freezers, and refrigerator-
freezers.
* * * * *
(b) Testing and calculations. Manufacturers shall use this
paragraph (b) for the purposes of certifying compliance with the
applicable energy conservation standards and for all representations of
energy efficiency/energy use. For equipment manufactured prior to
January 1, 2016, determine the daily energy consumption of each covered
commercial refrigerator, freezer, or refrigerator-freezer by conducting
the test procedure set forth in the Air-Conditioning and Refrigeration
Institute (ARI) Standard 1200-2006, ``Performance Rating of Commercial
Refrigerated Display Merchandisers and Storage Cabinets,'' section 3,
``Definitions,'' section 4, ``Test
[[Page 10319]]
Requirements,'' and section 7, ``Symbols and Subscripts'' (incorporated
by reference, see Sec. 431.63). For each commercial refrigerator,
freezer, or refrigerator-freezer with a self-contained condensing unit,
also use ARI Standard 1200-2006, section 6, ``Rating Requirements for
Self-contained Commercial Refrigerated Display Merchandisers and
Storage Cabinets.'' For each commercial refrigerator, freezer, or
refrigerator-freezer with a remote condensing unit, also use ARI
Standard 1200-2006, section 5, ``Rating Requirements for Remote
Commercial Refrigerated Display Merchandisers and Storage Cabinets.''
For equipment manufactured on or after January 1, 2016, determine the
daily energy consumption of each covered commercial refrigerator,
freezer, refrigerator-freezer or ice-cream freezer by conducting the
test procedure set forth in the AHRI Standard 1200 (I-P)-2010, section
3, ``Definitions,'' section 4, ``Test Requirements,'' and section 7,
``Symbols and Subscripts'' (incorporated by reference, see Sec.
431.63). For each commercial refrigerator, freezer, or refrigerator-
freezer with a self-contained condensing unit, also use AHRI Standard
1200 (I-P)-2010, section 6, ``Rating Requirements for Self-contained
Commercial Refrigerated Display Merchandisers and Storage Cabinets.''
For each commercial refrigerator, freezer, or refrigerator-freezer with
a remote condensing unit, also use AHRI Standard 1200 (I-P)-2010,
section 5, ``Rating Requirements for Remote Commercial Refrigerated
Display Merchandisers and Storage Cabinets.''
(1) For display cases manufactured after January 1, 2016 and sold
with night curtains installed, the night curtain shall be employed for
6 hours; 3 hours after the start of the first defrost period. Upon the
completion of the 6-hour period, the night curtain shall be raised
until the completion of the 24-hour test period.
(2) For commercial refrigerators, freezers, and refrigerator-
freezers manufactured after January 1, 2016 and sold with lighting
occupancy sensors, scheduled lighting controls, or lighting occupancy
sensors and scheduled lighting controls installed on the unit, the
effect on daily energy consumption will be determined by either a
physical test or a calculation method and using the variables that are
defined as:
CECA is the Alternate Compressor Energy Consumption (kilowatt-
hours);
LECsc is the lighting energy consumption of internal case lights
with lighting occupancy sensors and controls deployed (kilowatt-
hours);
Pli is the rated power of lights when they are fully on (watts);
Pli(off) is the power of lights when they are off (watts);
Pli(dim) is the power of lights when they are dimmed (watts);
TDECo is the total daily energy consumption with lights fully
on, as measured by AHRI Standard 1200 (I-P)-2010 (kilowatt-hours);
tdim is the time period which the lights are dimmed due to the
use of lighting occupancy sensors or scheduled lighting controls
(hours);
tdim,controls is the time case lighting is dimmed due to the use
of lighting controls (hours);
tdim,sensors is the time case lighting is dimmed due to the use
of lighting occupancy sensors (hours);
tl is the time period when lights would be on without lighting
occupancy sensors and/or scheduled lighting controls (24 hours);
toff is the time period which the lights are off due to the use
of lighting occupancy sensors and/or scheduled lighting controls
(hours);
toff,controls is the time case lighting is off due to the use of
scheduled lighting controls (hours);
toff,sensors is the time case lighting is off due to the use of
lighting occupancy sensors (hours); and
tsc is the time period when lighting is fully on with lighting
occupancy sensors and scheduled lighting controls enabled (hours).
(i) For both a physical test and a calculation method, determine
the estimated time off or dimmed, toff or
tdim, as the sum of contributions from lighting occupancy
sensors and scheduled lighting controls which dim or turn off
lighting, respectively, as shown in the following equation:
[GRAPHIC] [TIFF OMITTED] TR21FE12.001
The sum of tsc, toff, and tdim
should equal 24 hours and the total time period during which the
lights are off or dimmed shall not exceed 10.8 hours. For cases with
scheduled lighting controls, the time the case lighting is off and/
or dimmed due to scheduled lighting controls
(toff,controls and/or tdim,controls, as
applicable) shall not exceed 8 hours. For cases with lighting
occupancy sensors installed, the time the case lighting is off and/
or dimmed due to lighting occupancy sensors (toff,sensors
and/or tdim,sensors, as applicable) shall not exceed 10.8
hours. For cases with lighting occupancy sensors and scheduled
lighting controls installed, the time the case lighting is off and/
or dimmed due to lighting occupancy sensors (toff,sensors
and/or tdim,sensors, as applicable) shall not exceed 2.8
hours and the time the case lighting is off and/or dimmed due to
scheduled lighting controls (toff,controls and/or
tdim,controls, as applicable) shall not exceed 8 hours.
(ii) If using a physical test to determine the daily energy
consumption of a commercial refrigerator, freezer, or refrigerator-
freezer sold with lighting occupancy sensors, scheduled lighting
controls, or lighting occupancy sensors and scheduled lighting
controls installed on the unit, turn off the lights for a time
period equivalent to toff and dim the lights for a time
period equal to tdim. If night curtains are also being
tested on the case, the period of lights off and/or dimmed shall
begin at the same time that the night curtain is being deployed and
shall continue consecutively, in that order, for the appropriate
number of hours.
(iii) If using a calculation method to determine the daily
energy consumption of a commercial refrigerator, freezer, or
refrigerator-freezer sold with lighting occupancy sensors, scheduled
lighting controls, or lighting occupancy sensors and scheduled
lighting controls installed on the unit--
(A) Calculate the LECsc using the following equation:
[GRAPHIC] [TIFF OMITTED] TR21FE12.002
(B) Calculate the CECA using the following equation:
[[Page 10320]]
[GRAPHIC] [TIFF OMITTED] TR21FE12.003
Where EER represents the energy efficiency ratio from Table 1 in
AHRI Standard 1200 (I-P)-2010 (incorporated by reference, see Sec.
431.63) for remote condensing equipment or the values shown in the
following table for self-contained equipment:
EER for Self-Contained Commercial Refrigerated Display Merchandisers and
Storage Cabinets
------------------------------------------------------------------------
EER Btu/
Operating temperature class W
------------------------------------------------------------------------
Medium....................................................... 11
Low.......................................................... 7
Ice Cream.................................................... 5
------------------------------------------------------------------------
(C) For remote condensing commercial refrigerators, freezers, and
refrigerator-freezers with lighting occupancy sensors, scheduled
lighting controls, or lighting occupancy sensors and scheduled lighting
controls installed, the revised compressor energy consumption
(CECR) shall be the CECA added to the compressor
energy consumption (CEC) measured in AHRI Standard 1200 (I-P)-2010
(incorporated by reference, see Sec. 431.63). The CDEC for the entire
case shall be the sum of the CECR and LECsc (as
calculated above) and the fan energy consumption (FEC), anti-condensate
energy consumption (AEC), defrost energy consumption (DEC), and
condensate evaporator pan energy consumption (PEC) (as measured in AHRI
Standard 1200 (I-P)-2010).
(D) For self-contained commercial refrigerators, freezers, and
refrigerator-freezers with lighting occupancy sensors, scheduled
lighting controls, or lighting occupancy sensors and scheduled lighting
controls installed, the TDEC for the entire case shall be the sum of
total daily energy consumption as measured by the AHRI Standard 1200
(I-P)-2010 (incorporated by reference, see Sec. 431.63) test with the
lights fully on (TDECo) and CECA, less the
decrease in lighting energy use due to lighting occupancy sensors and
scheduled lighting controls, as shown in following equation.
[GRAPHIC] [TIFF OMITTED] TR21FE12.004
(3) Conduct the testing required in paragraphs (b) introductory
text, (b)(1), and (2) of this section, and determine the daily energy
consumption, at the applicable integrated average temperature in the
following table. The integrated average temperature is determined using
the required test method.
----------------------------------------------------------------------------------------------------------------
Test procedure prior to Test procedure on or Integrated average
Category January 1, 2016 after January 1, 2016 temperatures
----------------------------------------------------------------------------------------------------------------
(i) Refrigerator with Solid Door(s).. ARI Standard 1200-2006. AHRI Standard 1200..... 38 [deg]F (2 [deg]F).
(ii) Refrigerator with Transparent ARI Standard 1200-2006. AHRI Standard 1200..... 38 [deg]F (2 [deg]F).
(iii) Freezer with Solid Door(s)..... ARI Standard 1200-2006. AHRI Standard 1200..... 0 [deg]F (2
(I-P)-2010............. [deg]F).
(iv) Freezer with Transparent Door(s) ARI Standard 1200-2006. AHRI Standard 1200..... 0 [deg]F (2
(I-P)-2010............. [deg]F).
(v) Refrigerator-Freezer with Solid ARI Standard 1200-2006. AHRI Standard 1200..... 38 [deg]F (2 [deg]F) for
refrigerator
compartment.
0 [deg]F (2
[deg]F) for freezer
compartment.
(vi) Commercial Refrigerator with a ARI Standard 1200-2006. AHRI Standard 1200..... 38 [deg]F (2 [deg]F).
Designed for Pull-Down Temperature
Applications and Transparent Doors.
(vii) Ice-Cream Freezer.............. ARI Standard 1200-2006. AHRI Standard 1200..... -15.0 [deg]F (2 [deg]F).
(viii) Commercial Refrigerator, ARI Standard 1200-2006. AHRI Standard 1200..... (A) 0 [deg]F (2 [deg]F) for
with a Self-Contained Condensing low temperature
Unit and without Doors. applications.
(B) 38.0 [deg]F (2 [deg]F) for
medium temperature
applications.
(ix) Commercial Refrigerator, ARI Standard 1200-2006. AHRI Standard 1200..... (A) 0 [deg]F (2 [deg]F) for
with a Remote Condensing Unit. low temperature
applications.
(B) 38.0 [deg]F (2 [deg]F) for
medium temperature
applications.
----------------------------------------------------------------------------------------------------------------
(A) If a piece of commercial refrigeration equipment is not able
to be tested at the specified integrated average temperatures of 38
[deg]F (2 [deg]F), 0 [deg]F (2 [deg]F), or -15
[deg]F (2 [deg]F) for refrigerators, freezers, and ice-
cream freezers, respectively, the unit may be tested at the lowest
application product temperature, as defined in Sec. 431.62. For many
pieces of equipment, this will be the lowest thermostat setting. For
remote condensing equipment without a thermostat or other means of
controlling temperature at the case, the lowest application product
temperature shall be that achieved with the adjusted dew point
temperature (as defined in AHRI 1200 (I-P)-2010) set to 5 degrees
colder than that required to maintain the manufacturer's lowest
specified application temperature.
(B) For commercial refrigeration equipment that is also tested in
accordance with NSF test procedures
[[Page 10321]]
(Type I and Type II), integrated average temperatures and ambient
conditions used for NSF testing may be used in place of DOE prescribed
integrated average temperatures and ambient conditions provided they
result in a more stringent test. That is, the measured daily energy
consumption of the same unit, when tested at the rating temperatures
and/or ambient conditions specified in the DOE test procedure, will be
lower than or equal to the measured daily energy consumption of the
unit when tested with the rating temperatures or ambient conditions
used for NSF testing. The integrated average temperature measured
during the test may be lower than the range specified by the DOE rating
temperature specifications, provided in paragraph (b)(3) of this
section, but may not exceed the upper value of the specified range.
Ambient temperatures and/or humidity values may be higher than those
specified in the DOE test procedure.
(4) For equipment manufactured prior to January 1, 2016, determine
the volume of each covered commercial refrigerator, freezer, or
refrigerator-freezer using the methodology set forth in the ANSI/AHAM
HRF-1-2004, ``Energy, Performance and Capacity of Household
Refrigerators, Refrigerator-Freezers and Freezers'' (incorporated by
reference, see Sec. 431.63), section 3.21, ``Volume,'' sections 4.1
through 4.3, ``Method for Computing Total Refrigerated Volume and Total
Shelf Area of Household Refrigerators and Household Wine Chillers,''
and sections 5.1 through 5.3, ``Method for Computing Total Refrigerated
Volume and Total Shelf Area of Household Freezers.'' For equipment
manufactured on or after January 1, 2016, determine the volume of any
covered commercial refrigerator, freezer, refrigerator-freezer, or ice-
cream freezer using the method set forth in the HRF-1-2008
(incorporated by reference, see Sec. 431.63), section 3.30,
``Volume,'' and sections 4.1 through 4.3, ``Method for Computing
Refrigerated Volume of Refrigerators, Refrigerator-Freezers, Wine
Chillers and Freezers.''
[FR Doc. 2012-3201 Filed 2-17-12; 8:45 am]
BILLING CODE 6450-01-P
