Collapse to view only § 431.63 - Materials incorporated by reference.
Test Procedures
- § 431.61 - Purpose and scope.
- § 431.62 - Definitions concerning commercial refrigerators, freezers and refrigerator-freezers.
Energy Conservation Standards
- APPENDIX Appendix A - Appendix A to Subpart C of Part 431 [Reserved]
- APPENDIX Appendix B - Appendix B to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Commercial Refrigerators, Freezers, and Refrigerator-Freezers
- APPENDIX Appendix C - Appendix C to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Buffet Tables or Preparation Tables
- APPENDIX Appendix D - Appendix D to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Blast Chillers or Blast Freezers
Test Procedures
§ 431.63 - Materials incorporated by reference.
(a) Certain material is incorporated by reference into this subpart with the approval of the Director of the Federal Register in accordance with 5 U.S.C. 552(a) and 1 CFR part 51. To enforce any edition other than that specified in this section, the DOE must publish a document in the
(b) ANSI. American National Standards Institute, 25 W. 43rd Street, 4th Floor, New York, NY 10036, 212-642-4900, or go to http://www.ansi.org:
(1) ANSI /AHAM HRF-1-2004, Energy, Performance and Capacity of Household Refrigerators, Refrigerator-Freezers and Freezers, approved July 7, 2004, IBR approved for § 431.64 and appendices A and B to subpart C to part 431.
(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 and appendices A and B to subpart C to part 431.
(c) AHRI. Air-Conditioning, Heating, and Refrigeration Institute, 2111 Wilson Blvd., Suite 500, Arlington, VA 22201; (703) 524-8800; [email protected]; www.ahrinet.org/.
(1) ARI Standard 1200-2006, Performance Rating of Commercial Refrigerated Display Merchandisers and Storage Cabinets, 2006; IBR approved for § 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 § 431.66.
(3) AHRI Standard 1200-2023 (I-P) (“AHRI 1200-2023”), 2023 Standard for Performance Rating of Commercial Refrigerated Display Merchandisers and Storage Cabinets, copyright 2023; IBR approved for appendices B, C, and D to this subpart.
(4) AHRI Standard 1320-2011 (I-P), (“AHRI 1320-2011”) 2011 Standard for Performance Rating of Commercial Refrigerated Display Merchandisers and Storage Cabinets for Use With Secondary Refrigerants, copyright 2011; IBR approved for appendix B to this subpart.
(d) ASHRAE. The American Society of Heating, Refrigerating, and Air-Conditioning Engineers, Inc., 1971 Tullie Circle NE, Atlanta, GA 30329; (404) 636-8400; [email protected]; www.ashrae.org/.
(1) ANSI/ASHRAE Standard 72-2022 (ASHRAE 72-2022), Method of Testing Open and Closed Commercial Refrigerators and Freezers, approved June 30, 2022; IBR approved for appendices B, C, and D to this subpart.
(2) Errata sheet for ANSI/ASHRAE Standard 72-2022 (ASHRAE 72-2022 Errata), Method of Testing Open and Closed Commercial Refrigerators and Freezers, November 11, 2022; IBR approved for appendices B, C, and D to this subpart.
(e) ASTM. ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA 19428; (877) 909-2786; www.astm.org/.
(1) ASTM E1084-86 (Reapproved 2009), Standard Test Method for Solar Transmittance (Terrestrial) of Sheet Materials Using Sunlight, approved April 1, 2009; IBR approved for § 431.62.
(2) ASTM F2143-16, Standard Test Method for Performance of Refrigerated Buffet and Preparation Tables, approved May 1, 2016; IBR approved for appendix C to this subpart.
§ 431.64 - Uniform test method for the measurement of energy consumption of commercial refrigerators, freezers, and refrigerator-freezers.
(a) Scope. This section provides the test procedures for measuring, pursuant to EPCA, the energy consumption or energy efficiency for a given equipment category of commercial refrigerators, freezers, and refrigerator-freezers.
(b) Testing and calculations. (1) Determine the daily energy consumption and volume or total display area of each covered commercial refrigerator, freezer, or refrigerator-freezer by conducting the appropriate test procedure set forth below in appendix B, to this subpart. The daily energy consumption of commercial refrigeration equipment shall be calculated using raw measured values and the final test results shall be reported in increments of 0.01 kWh/day.
(2) Determine the daily energy consumption and pan storage volume, pan display area, and refrigerated volume of each buffet table or preparation table by conducting the appropriate test procedure set forth below in appendix C to this subpart. The daily energy consumption shall be calculated using raw measured values and the final test results shall be recorded in increments of 0.01 kWh/day.
(3) Determine the energy consumption per weight of product and product capacity of each blast chiller and blast freezer by conducting the appropriate test procedure set forth below in appendix D to this subpart. The energy consumption per weight of product shall be calculated using raw measured values and the final test results shall be recorded in increments of 0.01 kWh/lb.
§ 431.61 - Purpose and scope.
This subpart contains energy conservation requirements for commercial refrigerators, freezers and refrigerator-freezers, pursuant to Part C of Title III of the Energy Policy and Conservation Act, as amended, 42 U.S.C. 6311-6317.
§ 431.62 - Definitions concerning commercial refrigerators, freezers and refrigerator-freezers.
Air-curtain angle means:
(1) For equipment without doors and without a discharge air grille or discharge air honeycomb, the angle between a vertical line extended down from the highest point on the manufacturer's recommended load limit line and the load limit line itself, when the equipment is viewed in cross-section; and
(2) For all other equipment without doors, the angle formed between a vertical line and the straight line drawn by connecting the point at the inside edge of the discharge air opening with the point at the inside edge of the return air opening, when the equipment is viewed in cross-section.
Basic model means all commercial refrigeration equipment manufactured by one manufacturer within a single equipment class, having the same primary energy source, and that have essentially identical electrical, physical, and functional characteristics that affect energy consumption.
Blast chiller means commercial refrigeration equipment, other than a blast freezer, that is capable of the rapid temperature pull-down of hot food products from 135 °F to 40 °F within a period of four hours, when measured according to the test procedure at appendix D to subpart C of part 431.
Blast freezer means commercial refrigeration equipment that is capable of the rapid temperature pull-down of hot food products from 135 °F to 40 °F within a period of four hours and capable of achieving a final product temperature of less than 32 °F, when measured according to the test procedure at appendix D to subpart C of this part.
Buffet table or preparation table means a commercial refrigerator with an open-top refrigerated area, that may or may not include a lid, for displaying or storing merchandise and other perishable materials in pans or other removable containers for customer self-service or food production and assembly. The unit may or may not be equipped with a refrigerated storage compartment underneath the pans or other removable containers that is not thermally separated from the open-top refrigerated area.
Chef base or griddle stand means commercial refrigeration equipment that has a maximum height of 32 in., including any legs or casters, and that is designed and marketed for the express purpose of having a griddle or other cooking appliance placed on top of it that is capable of reaching temperatures hot enough to cook food.
Closed solid means equipment with doors, and in which more than 75 percent of the outer surface area of all doors on a unit are not transparent.
Closed transparent means equipment with doors, and in which 25 percent or more of the outer surface area of all doors on the unit are transparent.
Commercial freezer means a unit of commercial refrigeration equipment in which all refrigerated compartments in the unit are capable of operating below 32 °F (±2 °F).
Commercial hybrid means a unit of commercial refrigeration equipment:
(1) That consists of two or more thermally separated refrigerated compartments that are in two or more different equipment families, and
(2) That is sold as a single unit.
Commercial refrigerator means a unit of commercial refrigeration equipment in which all refrigerated compartments in the unit are capable of operating at or above 32 °F (±2 °F).
Commercial refrigerator-freezer means a unit of commercial refrigeration equipment consisting of two or more refrigerated compartments where at least one refrigerated compartment is capable of operating at or above 32 °F (±2 °F) and at least one refrigerated compartment is capable of operating below 32 °F (±2 °F).
Commercial refrigerator, freezer, and refrigerator-freezer means refrigeration equipment that—
(1) Is not a consumer product (as defined in § 430.2 of this chapter);
(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.
Customer order storage cabinet means a commercial refrigerator, freezer, or refrigerator-freezer that stores customer orders and includes individual, secured compartments with doors that are accessible to customers for order retrieval.
Door means a movable panel that separates the interior volume of a unit of commercial refrigeration equipment from the ambient environment and is designed to facilitate access to the refrigerated space for the purpose of loading and unloading product. This includes hinged doors, sliding doors, and drawers. This does not include night curtains.
Door angle means:
(1) For equipment with flat doors, the angle between a vertical line and the line formed by the plane of the door, when the equipment is viewed in cross-section; and
(2) For equipment with curved doors, the angle formed between a vertical line and the straight line drawn by connecting the top and bottom points where the display area glass joins the cabinet, when the equipment is viewed in cross-section.
Fully open (for drawers) means opened not less than 80% of their full travel.
High-temperature refrigerator means a commercial refrigerator that is not capable of an operating temperature at or below 40.0 °F.
Holding temperature application means a use of commercial refrigeration equipment other than a pull-down temperature application, except a blast chiller or freezer.
Horizontal Closed means equipment with hinged or sliding doors and a door angle greater than or equal to 45°.
Horizontal Open means equipment without doors and an air-curtain angle greater than or equal to 80° from the vertical.
Ice-cream freezer means:
(1) Prior to the compliance date(s) of any amended energy conservation standard(s) issued after January 1, 2023 for ice-cream freezers (see § 431.66), a commercial freezer that is capable of an operating temperature at or below −5.0 °F and that the manufacturer designs, markets, or intends specifically for the storing, displaying, or dispensing of ice cream or other frozen desserts; or
(2) Upon the compliance date(s) of any amended energy conservation standard(s) issued after January 1, 2023 for ice-cream freezers (see § 431.66), a commercial freezer that is capable of an operating temperature at or below −13.0 °F and that the manufacturer designs, markets, or intends specifically for the storing, displaying, or dispensing of ice cream or other frozen desserts.
Integrated average temperature means the average temperature of all test package measurements taken during the test.
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 (or for buffet tables or preparation tables, the average pan temperature of all measurements taken during the test) at which a given basic model is capable of consistently operating that is closest to the integrated average temperature (or for buffet tables or preparation tables, the average pan temperature of all measurements taken during the test) specified for testing under the DOE test procedure (see § 431.64).
Low-temperature freezer means a commercial freezer that is not an ice-cream freezer.
Medium-temperature refrigerator means a commercial refrigerator that is capable of an operating temperature at or below 40.0 °F.
Mobile refrigerated cabinet means commercial refrigeration equipment that is designed and marketed to operate only without a continuous power supply.
Night curtain means a device which is temporarily deployed to decrease air exchange and heat transfer between the refrigerated case and the surrounding environment.
Operating temperature means the range of integrated average temperatures at which a self-contained commercial refrigeration unit or remote-condensing commercial refrigeration unit with a thermostat is capable of operating or, in the case of a remote-condensing commercial refrigeration unit without a thermostat, the range of integrated average temperatures at which the unit is marketed, designed, or intended to operate.
Pull-down temperature application means a commercial refrigerator with doors that, when fully loaded with 12-ounce beverage cans at 90 degrees F, can cool those beverages to an average stable temperature of 38 degrees F in 12 hours or less.
Rating temperature means the integrated average temperature a unit must maintain during testing (i.e., either as listed in the table at § 431.66(d)(1) or the lowest application product temperature).
Remote condensing unit means a factory-made assembly of refrigerating components designed to compress and liquefy a specific refrigerant that is remotely located from the refrigerated equipment and consists of one or more refrigerant compressors, refrigerant condensers, condenser fans and motors, and factory supplied accessories.
Scheduled lighting control means a device which automatically shuts off or dims the lighting in a display case at scheduled times throughout the day.
Self-contained condensing unit means a factory-made assembly of refrigerating components designed to compress and liquefy a specific refrigerant that is an integral part of the refrigerated equipment and consists of one or more refrigerant compressors, refrigerant condensers, condenser fans and motors, and factory-supplied accessories.
Semivertical Open means equipment without doors and an air-curtain angle greater than or equal to 10° and less than 80° from the vertical.
Service over counter means equipment that has sliding or hinged doors in the back intended for use by sales personnel, with glass or other transparent material in the front for displaying merchandise, and that has a height not greater than 66 in. and is intended to serve as a counter for transactions between sales personnel and customers.
Test package means a packaged material that is used as a standard product temperature-measuring device.
Transparent means greater than or equal to 45 percent light transmittance, as determined in accordance with ASTM E1084-86 (Reapproved 2009) (incorporated by reference, see § 431.63) at normal incidence and in the intended direction of viewing.
Vertical Closed means equipment with hinged or sliding doors and a door angle less than 45°.
Vertical Open means equipment without doors and an air-curtain angle greater than or equal to 0° and less than 10° from the vertical.
Wedge case means a commercial refrigerator, freezer, or refrigerator-freezer that forms the transition between two regularly shaped display cases.
Energy Conservation Standards
§ 431.66 - Energy conservation standards and their effective dates.
(a) In this section—
(1) The term “AV” means the adjusted volume (ft 3) (defined as 1.63 × frozen temperature compartment volume (ft 3) + chilled temperature compartment volume (ft 3)) with compartment volumes measured in accordance with the Association of Home Appliance Manufacturers Standard HRF1-1979.
(2) The term “V” means the chilled or frozen compartment volume (ft 3) (as defined in the Association of Home Appliance Manufacturers Standard HRF1-1979).
(3) For the purpose of paragraph (d) of this section, the term “TDA” means the total display area (ft 2) of the case, as defined in ARI Standard 1200-2006, appendix D (incorporated by reference, see § 431.63). For the purpose of paragraph (e) of this section, the term “TDA” means the total display area (ft 2) of the case, as defined in AHRI Standard 1200 (I-P)-2010, appendix D (incorporated by reference, see § 431.63).
(b)(1) Each commercial refrigerator, freezer, and refrigerator-freezer with a self-contained condensing unit designed for holding temperature applications manufactured on or after January 1, 2010 and before March 27, 2017 shall have a daily energy consumption (in kilowatt-hours per day) that does not exceed the following:
Category | Maximum daily energy consumption
(kilowatt hours per day) | Refrigerators with solid doors | 0.10V + 2.04. | Refrigerators with transparent doors | 0.12V + 3.34. | Freezers with solid doors | 0.40V + 1.38. | Freezers with transparent doors | 0.75V + 4.10. | Refrigerator/freezers with solid doors | the greater of 0.27AV-0.71 or 0.70. |
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(2) Each service over the counter, self-contained, medium temperature commercial refrigerator (SOC-SC-M) manufactured on or after January 1, 2012, shall have a total daily energy consumption (in kilowatt hours per day) of not more than 0.6 × TDA + 1.0. As used in the preceding sentence, “TDA” means the total display area (ft 2) of the case, as defined in the AHRI Standard 1200 (I-P)-2010, appendix D (incorporated by reference, see § 431.63).
(c) Each commercial refrigerator with a self-contained condensing unit designed for pull-down temperature applications and transparent doors manufactured on or after January 1, 2010 and before March 27, 2017 shall have a daily energy consumption (in kilowatt-hours per day) of not more than 0.126V + 3.51.
(d) Each commercial refrigerator, freezer, and refrigerator-freezer with a self-contained condensing unit and without doors; commercial refrigerator, freezer, and refrigerator-freezer with a remote condensing unit; and commercial ice-cream freezer manufactured on or after January 1, 2012 and before March 27, 2017 shall have a daily energy consumption (in kilowatt-hours per day) that does not exceed the levels specified:
(1) For equipment other than hybrid equipment, refrigerator-freezers or wedge cases:
Equipment category | Condensing unit
configuration | Equipment
family | Rating
temp. (°F) | Operating
temp. (°F) | Equipment class
designation * | Maximum daily energy consumption
(kWh/day) | Remote Condensing Commercial Refrigerators and Commercial Freezers | Remote (RC) | Vertical Open (VOP) | 38 (M)
0 (L) | ≥32±2
<32±2 | VOP.RC.M
VOP.RC.L | 0.82 × TDA + 4.07
2.27 × TDA + 6.85 | Semivertical Open (SVO) | 38 (M)
0 (L) | ≥32±2
<32±2 | SVO.RC.M
SVO.RC.L | 0.83 × TDA + 3.18
2.27 × TDA + 6.85 | Horizontal Open (HZO) | 38 (M)
0 (L) | ≥32±2
<32±2 | HZO.RC.M
HZO.RC.L | 0.35 × TDA + 2.88
0.57 × TDA + 6.88 | Vertical Closed Transparent (VCT) | 38 (M)
0 (L) | ≥32±2
<32±2 | VCT.RC.M
VCT.RC.L | 0.22 × TDA + 1.95
0.56 × TDA + 2.61 | Horizontal Closed Transparent (HCT) | 38 (M)
0 (L) | ≥32±2
<32±2 | HCT.RC.M
HCT.RC.L | 0.16 × TDA + 0.13
0.34 × TDA + 0.26 | Vertical Closed Solid (VCS) | 38 (M)
0 (L) | ≥32±2
<32±2 | VCS.RC.M
VCS.RC.L | 0.11 × V + 0.26
0.23 × V + 0.54 | Horizontal Closed Solid (HCS) | 38 (M)
0 (L) | ≥32±2
<32±2 | HCS.RC.M
HCS.RC.L | 0.11 × V + 0.26
0.23 × V + 0.54 | Service Over Counter (SOC) | 38 (M)
0 (L) | ≥32±2
<32±2 | SOC.RC.M
SOC.RC.L | 0.51 × TDA + 0.11
1.08 × TDA + 0.22 | Self-Contained Commercial Refrigerators and Commercial Freezers without Doors | Self-Contained (SC) | Vertical Open (VOP) | 38 (M)
0 (L) | ≥32±2
<32±2 | VOP.SC.M
VOP.SC.L | 1.74 × TDA + 4.71
4.37 × TDA + 11.82 | Semivertical Open (SVO) | 38 (M)
0 (L) | ≥32±2
<32±2 | SVO.SC.M
SVO.SC.L | 1.73 × TDA + 4.59
4.34 × TDA + 11.51 | Horizontal Open | 38 (M)
0 (L) | ≥32±2
<32±2 | HZO.SC.M
HZO.SC.L | 0.77 × TDA + 5.55
1.92 × TDA + 7.08 | Commercial Ice-Cream Freezers | Remote (RC) | Vertical Open (VOP) | −15 (I) | ≤−5±2** ** | VOP.RC.I | 2.89 × TDA + 8.7 | Semivertical Open (SVO) | SVO.RC.I | 2.89 × TDA + 8.7 | Horizontal Open (HZO) | HZO.RC.I | 0.72 × TDA + 8.74 | Vertical Closed Transparent (VCT) | VCT.RC.I | 0.66 × TDA + 3.05 | Horizontal Closed Transparent (HCT) | HCT.RC.I | 0.4 × TDA + 0.31 | Vertical Closed Solid (VCS) | VCS.RC.I | 0.27 × V + 0.63 | Horizontal Closed Solid (HCS) | HCS.RC.I | 0.27 × V + 0.63 | Service Over Counter (SVO) | SOC.RC.I | 1.26 × TDA + 0.26 | Self-Contained (SC) | Vertical Open (VOP) | VOP.SC.I | 5.55 × TDA + 15.02 | Semivertical Open (SVO) | SVO.SC.I | 5.52 × TDA + 14.63 | Horizontal Open (HZO) | HZO.SC.I | 2.44 × TDA + 9 | Vertical Closed Transparent (VCT) | VCT.SC.I | 0.67 × TDA + 3.29 | Horizontal Closed Transparent (HCT) | HCT.SC.I | 0.56 × TDA + 0.43 | Vertical Closed Solid (VCS) | VCS.SC.I | 0.38 × V + 0.88 | Horizontal Closed Solid (HCS) | HCS.SC.I | 0.38 × V + 0.88 | Service Over Counter (SVO) | SOC.SC.I | 1.76 × TDA + 0.36 |
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* The meaning of the letters in this column is indicated in the three columns to the left.
** Ice-cream freezer is defined in 10 CFR 431.62 as a commercial freezer that is designed to operate at or below −5 °F (−21 °C) and that the manufacturer designs, markets, or intends for the storing, displaying, or dispensing of ice cream.
(2) For commercial refrigeration equipment with two or more compartments (i.e., hybrid refrigerators, hybrid freezers, hybrid refrigerator-freezers, and non-hybrid refrigerator-freezers), the maximum daily energy consumption (MDEC) for each model shall be the sum of the MDEC values for all of its compartments. For each compartment, measure the TDA or volume of that compartment, and determine the appropriate equipment class based on that compartment's equipment family, condensing unit configuration, and designed operating temperature. The MDEC limit for each compartment shall be the calculated value obtained by entering that compartment's TDA or volume into the standard equation in paragraph (d)(1) of this section for that compartment's equipment class. Measure the calculated daily energy consumption (CDEC) or total daily energy consumption (TDEC) for the entire case:
(i) For remote condensing commercial hybrid refrigerators, hybrid freezers, hybrid refrigerator-freezers, and non-hybrid refrigerator-freezers, where two or more independent condensing units each separately cool only one compartment, measure the total refrigeration load of each compartment separately according to the ARI Standard 1200-2006 test procedure (incorporated by reference, see § 431.63). Calculate compressor energy consumption (CEC) for each compartment using Table 1 in ARI Standard 1200-2006 using the saturated evaporator temperature for that compartment. The CDEC for the entire case shall be the sum of the CEC for each compartment, fan energy consumption (FEC), lighting energy consumption (LEC), anti-condensate energy consumption (AEC), defrost energy consumption (DEC), and condensate evaporator pan energy consumption (PEC) (as measured in ARI Standard 1200-2006).
(ii) For remote condensing commercial hybrid refrigerators, hybrid freezers, hybrid refrigerator-freezers, and non-hybrid refrigerator-freezers, where two or more compartments are cooled collectively by one condensing unit, measure the total refrigeration load of the entire case according to the ARI Standard 1200-2006 test procedure (incorporated by reference, see § 431.63). Calculate a weighted saturated evaporator temperature for the entire case by:
(A) Multiplying the saturated evaporator temperature of each compartment by the volume of that compartment (as measured in ARI Standard 1200-2006),
(B) Summing the resulting values for all compartments, and
(C) Dividing the resulting total by the total volume of all compartments.
Calculate the CEC for the entire case using Table 1 in ARI Standard 1200-2006 (incorporated by reference, see § 431.63), using the total refrigeration load and the weighted average saturated evaporator temperature. The CDEC for the entire case shall be the sum of the CEC, FEC, LEC, AEC, DEC, and PEC.
(iii) For self-contained commercial hybrid refrigerators, hybrid freezers, hybrid refrigerator-freezers, and non-hybrid refrigerator-freezers, measure the TDEC for the entire case according to the ARI Standard 1200-2006 test procedure (incorporated by reference, see § 431.63).
(3) For remote-condensing and self-contained wedge cases, measure the CDEC or TDEC according to the ARI Standard 1200-2006 test procedure (incorporated by reference, see § 431.63). The MDEC for each model shall be the amount derived by incorporating into the standards equation in paragraph (d)(1) of this section for the appropriate equipment class a value for the TDA that is the product of:
(i) The vertical height of the air-curtain (or glass in a transparent door) and (ii) The largest overall width of the case, when viewed from the front.
(e) Each commercial refrigerator, freezer, and refrigerator-freezer with a self-contained condensing unit designed for holding temperature applications and with solid or transparent doors; commercial refrigerator with a self-contained condensing unit designed for pull-down temperature applications and with transparent doors; commercial refrigerator, freezer, and refrigerator-freezer with a self-contained condensing unit and without doors; commercial refrigerator, freezer, and refrigerator-freezer with a remote condensing unit; and commercial ice-cream freezer manufactured on or after March 27, 2017, shall have a daily energy consumption (in kilowatt-hours per day) that does not exceed the levels specified:
(1) For equipment other than hybrid equipment, refrigerator/freezers, or wedge cases:
Equipment category | Condensing
unit configuration | Equipment
family | Rating
temp. °F | Operating
temp. °F | Equipment
class designation * | Maximum
daily energy consumption kWh/day | Remote Condensing Commercial Refrigerators and Commercial Freezers | Remote (RC) | Vertical Open (VOP) | 38 (M) | ≥32 | VOP.RC.M | 0.64 × TDA + 4.07. | 0 (L) | <32 | VOP.RC.L | 2.2 × TDA + 6.85. | Semivertical Open (SVO) | 38 (M) | ≥32 | SVO.RC.M | 0.66 × TDA + 3.18. | 0 (L) | <32 | SVO.RC.L | 2.2 × TDA + 6.85. | Horizontal Open (HZO) | 38 (M) | ≥32 | HZO.RC.M | 0.35 × TDA + 2.88. | 0 (L) | <32 | HZO.RC.L | 0.55 × TDA + 6.88. | Vertical Closed Transparent (VCT) | 38 (M) | ≥32 | VCT.RC.M | 0.15 × TDA + 1.95. | 0 (L) | <32 | VCT.RC.L | 0.49 × TDA + 2.61. | Horizontal Closed Transparent (HCT) | 38 (M) | ≥32 | HCT.RC.M | 0.16 × TDA + 0.13. | 0 (L) | <32 | HCT.RC.L | 0.34 × TDA + 0.26. | Vertical Closed Solid (VCS) | 38 (M) | ≥32 | VCS.RC.M | 0.1 × V + 0.26. | 0 (L) | <32 | VCS.RC.L | 0.21 × V + 0.54. | Horizontal Closed Solid (HCS) | 38 (M) | ≥32 | HCS.RC.M | 0.1 × V + 0.26. | 0 (L) | <32 | HCS.RC.L | 0.21 × V + 0.54. | Service Over Counter (SOC) | 38 (M) | ≥32 | SOC.RC.M | 0.44 × TDA + 0.11. | 0 (L) | <32 | SOC.RC.L | 0.93 × TDA + 0.22. | Self-Contained Commercial Refrigerators and Commercial Freezers Without Doors | Self-Contained (SC) | Vertical Open (VOP) | 38 (M) | ≥32 | VOP.SC.M | 1.69 × TDA + 4.71. | 0 (L) | <32 | VOP.SC.L | 4.25 × TDA + 11.82. | Semivertical Open (SVO) | 38 (M) | ≥32 | SVO.SC.M | 1.7 × TDA + 4.59. | 0 (L) | <32 | SVO.SC.L | 4.26 × TDA + 11.51. | Horizontal Open (HZO) | 38 (M) | ≥32 | HZO.SC.M | 0.72 × TDA + 5.55. | 0 (L) | <32 | HZO.SC.L | 1.9 × TDA + 7.08. | Self-Contained Commercial Refrigerators and Commercial Freezers With Doors | Self-Contained (SC) | Vertical Closed Transparent (VCT) | 38 (M) | ≥32 | VCT.SC.M | 0.1 × V + 0.86. | 0 (L) | <32 | VCT.SC.L | 0.29 × V + 2.95. | Vertical Closed Solid (VCS) | 38 (M) | ≥32 | VCS.SC.M | 0.05 × V + 1.36. | <32 | VCS.SC.L | 0.22 × V + 1.38. | Horizontal Closed Transparent (HCT) | 38 (M) | ≥32 | HCT.SC.M | 0.06 × V + 0.37. | 0 (L) | <32 | HCT.SC.L | 0.08 × V + 1.23. | Horizontal Closed Solid (HCS) | ≥32 | HCS.SC.M | 0.05 × V + 0.91. | 0 (L) | <32 | HCS.SC.L | 0.06 × V + 1.12. | Service Over Counter (SOC) | ≥32 | SOC.SC.M | 0.52 × TDA + 1. | 0 (L) | <32 | SOC.SC.L | 1.1 × TDA + 2.1. | Self-Contained Commercial Refrigerators with Transparent Doors for Pull-Down Temperature Applications | Self-Contained (SC) | Pull-Down (PD) | 38 (M) | ≥32 | PD.SC.M | 0.11 × V + 0.81. | Commercial Ice-Cream Freezers | Remote (RC) | Vertical Open (VOP) | −15 (I) | ≤−5** | VOP.RC.I | 2.79 × TDA + 8.7. | Semivertical Open (SVO) | SVO.RC.I | 2.79 × TDA + 8.7. | Horizontal Open (HZO) | HZO.RC.I | 0.7 × TDA + 8.74. | Vertical Closed Transparent (VCT) | VCT.RC.I | 0.58 × TDA + 3.05. | Horizontal Closed Transparent (HCT) | HCT.RC.I | 0.4 × TDA + 0.31. | Vertical Closed Solid (VCS) | VCS.RC.I | 0.25 × V + 0.63. | Horizontal Closed Solid (HCS) | HCS.RC.I | 0.25 × V + 0.63. | Service Over Counter (SOC) | SOC.RC.I | 1.09 × TDA + 0.26. | Self-Contained (SC) | Vertical Open (VOP) | VOP.SC.I | 5.4 × TDA + 15.02. | Semivertical Open (SVO) | SVO.SC.I | 5.41 × TDA + 14.63. | Horizontal Open (HZO) | HZO.SC.I | 2.42 × TDA + 9. | Vertical Closed Transparent (VCT) | VCT.SC.I | 0.62 × TDA + 3.29. | Horizontal Closed Transparent (HCT) | HCT.SC.I | 0.56 × TDA + 0.43. | Vertical Closed Solid (VCS) | VCS.SC.I | 0.34 × V + 0.88. | Horizontal Closed Solid (HCS) | HCS.SC.I | 0.34 × V + 0.88. | Service Over Counter (SOC) | SOC.SC.I | 1.53 × TDA + 0.36. |
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* The meaning of the letters in this column is indicated in the columns to the left.
** Ice-cream freezer is defined in 10 CFR 431.62 as a commercial freezer that is designed to operate at or below −5 °F *(−21 °C) and that the manufacturer designs, markets, or intends for the storing, displaying, or dispensing of ice cream.
(2) For commercial refrigeration equipment with two or more compartments (i.e., hybrid refrigerators, hybrid freezers, hybrid refrigerator-freezers, and non-hybrid refrigerator-freezers), the maximum daily energy consumption for each model shall be the sum of the MDEC values for all of its compartments. For each compartment, measure the TDA or volume of that compartment, and determine the appropriate equipment class based on that compartment's equipment family, condensing unit configuration, and designed operating temperature. The MDEC limit for each compartment shall be the calculated value obtained by entering that compartment's TDA or volume into the standard equation in paragraph (e)(1) of this section for that compartment's equipment class. Measure the CDEC or TDEC for the entire case as described in § 431.66(d)(2)(i) through (iii), except that where measurements and calculations reference ARI Standard 1200-2006 (incorporated by reference, see § 431.63), AHRI Standard 1200 (I-P)-2010 (incorporated by reference, see § 431.63) shall be used.
(3) For remote condensing and self-contained wedge cases, measure the CDEC or TDEC according to the AHRI Standard 1200 (I-P)-2010 test procedure (incorporated by reference, see § 431.63). For wedge cases in equipment classes for which a volume metric is used, the MDEC shall be the amount derived from the appropriate standards equation in paragraph (e)(1) of this section. For wedge cases of equipment classes for which a TDA metric is used, the MDEC for each model shall be the amount derived by incorporating into the standards equation in paragraph (e)(1) of this section for the equipment class a value for the TDA that is the product of:
(i) The vertical height of the air curtain (or glass in a transparent door) and
(ii) The largest overall width of the case, when viewed from the front.
(f) Exclusions. The energy conservation standards in paragraphs (b) through (e) of this section do not apply to salad bars, buffet tables, and chef bases or griddle stands.
Appendix A - Appendix A to Subpart C of Part 431 [Reserved]
Appendix B - Appendix B to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Commercial Refrigerators, Freezers, and Refrigerator-Freezers
On or after September 20, 2024, any representations, including for certification of compliance, made with respect to the energy use or efficiency of commercial refrigeration equipment, except for buffet tables or preparation tables, blast chillers, blast freezers, or mobile refrigerated cabinets, must be made in accordance with the results of testing pursuant to this appendix. Prior to September 20, 2024, any representations with respect to energy use or efficiency of commercial refrigeration equipment, except for buffet tables or preparation tables, blast chillers, blast freezers, or mobile refrigerated cabinets, must be made either in accordance with the results of testing pursuant to this appendix or with the results of testing pursuant to this appendix as it appeared in appendix B to subpart C of part 431 in the 10 CFR parts 200-499 edition revised as of January 1, 2023. Buffet tables or preparation tables are subject to the test method requirements in appendix C to subpart C of part 431. Blast chillers and blast freezers are subject to the test method requirements in appendix D to subpart C of part 431.
The test procedure for equipment cooled only by secondary coolants in section 1.1.3 of this appendix is not required for use until the compliance date(s) of any amended energy conservation standard(s) (see § 431.66) for such commercial refrigeration equipment.
High-temperature refrigerators must be tested as medium-temperature refrigerators according to section 2.1.3 of this appendix based on the lowest application product temperature until the compliance date(s) of any amended energy conservation standard(s) (see § 431.66) established for high-temperature refrigerators. On and after the compliance date(s) of such energy conservation standard(s) (see § 431.66), high-temperature refrigerators must be tested as high-temperature refrigerators according to section 2.1.4 of this appendix.
0. Incorporation by ReferenceDOE incorporated by reference in § 431.63 the entire standard for AHRI 1200-2023; AHRI 1320-2011; ASHRAE 72-2022 and ASHRAE 72-2022 Errata (the latter two collectively referenced as ASHRAE 72-2022 with Errata). However, only enumerated provisions of AHRI 1200-2023 and AHRI 1320-2011 are applicable to this appendix as follows:
0.1. AHRI 1200-2023
(a) Section 3, “Definitions,” as referenced in section 1.1 of this appendix.
(b) Section 3.2.8, “Dew Point,” as referenced in section 2.2. of this appendix.
(c) Section 3.2.20, “Total Display Area (TDA),” as referenced in section 3.2 of this appendix.
(d) Section 4, “Test Requirements,” as referenced in section 1.1 of this appendix.
(e) Section 4.1.1.1, “High Temperature Applications,” as referenced in section 2.1.4 of this appendix.
(f) Section 4.1.1.2, “Ice Cream Applications,” as referenced in section 2.1.1 of this appendix.
(g) Section 4.1.1.3, “Low Temperature Applications,” as referenced in section 2.1.2 of this appendix.
(h) Section 4.1.1.4, “Medium Temperature Applications,” as referenced in section 2.1.3 of this appendix.
(i) Section 5.1, “Rating Requirements for Remote Commercial Refrigerated Display Merchandisers and Storage Cabinets” as referenced in sections 1.1.2, 1.1.3, and 1.5.3.3 of this appendix.
(j) Section 5.2, “Rating Requirements for Self-Contained Commercial Refrigerated Display Merchandisers and Storage Cabinets,” as referenced in section 1.1.1 of this appendix.
(k) Section 9, “Symbols and Subscripts,” as referenced in section 1.1 and 2.2 of this appendix.
(l) Appendix C, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Refrigerated Volume Calculation—Normative” as referenced in section 3.1 of this appendix.
(m) Appendix D, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Total Display Area (TDA) Calculation—Normative,” as referenced in section 3.2 of this appendix.
0.2. AHRI 1320-2011
(a) Sections 5.2.7 and 5.2.8 as referenced in section 1.1.3 of this appendix.
(b) [Reserved].
1. Test Procedure1.1. Determination of Daily Energy Consumption. Determine the daily energy consumption of each covered commercial refrigerator, freezer, or refrigerator-freezer by conducting the test procedure set forth in AHRI 1200-2023, section 3, “Definitions,” section 4, “Test Requirements,” and section 9, “Symbols and Subscripts.”
1.1.1. For each commercial refrigerator, freezer, or refrigerator-freezer with a self-contained condensing unit, also use AHRI 1200-2023, section 5.2, “Rating Requirements for Self-Contained Commercial Refrigerated Display Merchandisers and Storage Cabinets.”
1.1.2. For each commercial refrigerator, freezer, or refrigerator-freezer with a remote condensing unit, also use AHRI 1200-2023, section 5.1, “Rating Requirements for Remote Commercial Refrigerated Display Merchandisers and Storage Cabinets.”
1.1.3. For each commercial refrigerator, freezer, or refrigerator-freezer used with a secondary coolant, test according to section 1.1.2 of this appendix, except in place of the equations for CDEC and CEC in sections 5.1.2 and 5.1.2.1 of AHRI 1200-2023, respectively, apply the following equations:
CDEC = CEC + [FEC + LEC + AEC + DEC + PEC]* + CPEC CEC = [(QWhere CPEC and Q
1.2. Methodology for Determining Applicability of Transparent Door Equipment Families. To determine if a door for a given model of commercial refrigeration equipment is transparent:
(a) Calculate the outer door surface area including frames and mullions;
(b) calculate the transparent surface area within the outer door surface area excluding frames and mullions;
(c) calculate the ratio of (2) to (1) for each of the outer doors; and
(d) the ratio for the transparent surface area of all outer doors must be greater than 0.25 to qualify as a transparent equipment family.
1.3. Drawers. Drawers shall be treated as identical to doors when conducting the DOE test procedure. Commercial refrigeration equipment with drawers intended for use with pans shall be configured with stainless steel food service pans, installed in a configuration per the manufacturer's instructions utilizing the maximum pan sizes specified. If the manufacturer does not specify the pan sizes, the maximum pan depth and pan volume allowed shall be used. For commercial refrigeration equipment with drawers intended for use with pans, the net usable volume includes only the interior volume of the pan(s) in the drawer. The net usable volume shall be measured by the amount of water needed to fill all the pan(s) to within 0.5 inches of the top rim, or determined by calculating the total volume of all pan(s) using the pan manufacturers' published pan volume. For commercial refrigeration equipment with drawers not intended for pans, the net usable volume shall be equal to the total volume of the drawer to the top edge of the drawer. Test simulators shall be placed in commercial refrigeration equipment with drawers as follows: For each drawer, there shall be two test simulators placed at each of the following locations: at the left end, at the right end, and at consistent 24 inch to 48 inch intervals across the width of the drawer (for drawers wider than 48 inches). For drawers with overall internal width of 48 inches or less, only the left and right ends shall have test simulators. If test simulators are to be placed at a pan edge or divider, the test simulator shall be placed at the nearest adjacent location. For each drawer, one test simulator shall be placed on the bottom of the pan or drawer at each of the front and rear test simulator locations of the drawer. Test simulators shall be placed in contact with the drawer or pan end or ends unless load limiting stops are provided as part of the case. Test simulators shall be secured such that the test simulators do not move during the test. The net usable volume where test simulators are not required shall be filled with filler material so that between 60 percent and 80 percent of the net usable volume is occupied by test simulators and uniformly occupied by filler material.
1.4. Long-time Automatic Defrost. For commercial refrigeration equipment not capable of operating with defrost intervals of 24 hours or less, testing may be conducted using a two-part test method.
1.4.1. First Part of Test. The first part of the test shall be a 24-hour test starting in steady-state conditions and including eight hours of door opening (according to ASHRAE 72-2022 with Errata). The energy consumed in this test, ET1, shall be recorded.
1.4.2. Second Part of Test. The second part of the test shall be a defrost cycle, including any operation associated with a defrost. The start and end of the test period be determined as the last time before and first time after a defrost occurrence when the measured average simulator temperature (i.e., the instantaneous average of all test simulator temperature measurements) is within 0.5 °F of the IAT as measured during the first part of the test. The energy consumed in this test, ET2, and duration, t
1.4.3. Daily Energy Consumption. Based on the measured energy consumption in these two tests, the daily energy consumption (DEC) in kWh shall be calculated as:
Where: DEC = daily energy consumption, in kWh; ET 1 = energy consumed during the first part of the test, in kWh; ET 2 = energy consumed during the second part of the test, in kWh; t1.5. Customer Order Storage Cabinets. Customer order storage cabinets shall conduct door openings according to ASHRAE 72-2022 with Errata, except that each door shall be opened to the fully open position for 8 seconds, once every 2 hours, for 6 door-opening cycles.
1.5.1. Ambient Compartments. For customer order storage cabinets that have at least one individual-secured compartment that is not capable of maintaining an integrated average temperature below the ambient dry-bulb temperature, the individual-secured compartment(s) at ambient dry-bulb temperature shall be categorized as a high-temperature refrigerator compartment for the purpose of testing and rating. All volume, total display area, and energy consumption calculations shall be included within the high-temperature refrigerator category and summed with other high-temperature refrigerator category compartment(s) calculations.
1.5.2. Convertible Compartments. For customer order storage cabinets that have individual-secured compartments that are convertible between the ambient dry-bulb temperature and the ≥32 °F operating temperature, the convertible compartment shall be tested as a medium-temperature refrigerator compartment or at the lowest application product temperature as specified in section 2.2 of this appendix.
1.5.3. Inverse Refrigeration Load Test. For customer order storage cabinets that supply refrigerant to multiple individual-secured compartments and that allow the suction pressure from the evaporator in each individual-secured compartment to float based on the temperature required to store the customer order in that individual-secured compartment, test according to section 1.1.2 of this appendix, except that energy (heat) loss shall be allowed at a rate and ΔT equivalent to the energy gains of a standard refrigerated cabinet as specified in sections 1.5.3.1-1.5.3.3 of this appendix.
1.5.3.1. Anti-sweat door heaters. Anti-sweat door heaters shall be de-energized for the inverse refrigeration load test specified in section 1.5.3. of this appendix.
1.5.3.2. Integrated Average Temperature. For medium-temperature refrigerator compartments, the integrated average temperature shall be 112.4 °F ±2.0 °F. For low-temperature freezer compartments, the integrated average temperature shall be 150.4 °F ±2.0 °F. For ambient compartments, the integrated average temperature shall be 75.4 °F ±2.0 °F.
1.5.3.3. Daily Energy Consumption. Determine the calculated daily energy consumption (“CDEC”) and the EER based on AHRI 1200-2023, section 5.1, “Rating Requirements for Remote Commercial Refrigerated Display Merchandisers and Storage Cabinets,” except that the compressor energy consumption (“CEC”) shall be calculated by applying the following equations:
ML = N2.1. Integrated Average Temperatures. Conduct the testing required in section 1 of this appendix, and determine the daily energy consumption at the applicable integrated average temperature as follows:
2.1.1. Ice-Cream Freezers. Test ice-cream freezers and ice-cream freezer compartments to the integrated average temperature specified in section 4.1.1.2, “Ice Cream Applications,” of AHRI 1200-2023.
2.1.2. Low-Temperature Freezers. Test low-temperature freezers and low-temperature freezer compartments to the integrated average temperature specified in section 4.1.1.3, “Low Temperature Applications,” of AHRI 1200-2023.
2.1.3. Medium-Temperature Refrigerators. Test medium-temperature refrigerators and medium-temperature refrigerator compartments to the integrated average temperature specified in section 4.1.1.4, “Medium Temperature Applications,” of AHRI 1200-2023.
2.1.4. High-Temperature Refrigerators. Test high-temperature refrigerators and high-temperature refrigerator compartments to the integrated average temperature specified in section 4.1.1.1, “High Temperature Applications,” of AHRI 1200-2023.
2.2. Lowest Application Product Temperature. If a unit of commercial refrigeration equipment is not able to be operated at the integrated average temperature specified in section 2.1 of this appendix, test the unit at the lowest application product temperature (LAPT), as defined in § 431.62. For units equipped with a thermostat, LAPT is the measured temperature at the lowest thermostat setting of the unit (for units that are only able to operate at temperatures above the specified test temperature) or the highest thermostat setting of the unit (for units that are only able to operate at temperatures below the specified test temperature). For remote condensing equipment without a thermostat or other means of controlling temperature at the case, the lowest application product temperature is measured at the temperature achieved with the dew point temperature (as defined in section 3.2.8, “Dew Point,” of AHRI 1200-2023) or mid-point evaporator temperature (as defined in section 9, “Symbols and Subscripts,” of AHRI 1200-2023) set to 5 degrees colder than that required to maintain the manufacturer's specified application temperature that is closest to the specified integrated average temperature.
2.3. Testing at NSF Test Conditions. For commercial refrigeration equipment that is also tested in accordance with NSF test procedures (Type I and Type II), integrated average temperatures and ambient conditions used for NSF testing may be used in place of the 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, must 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 applicable temperature specification provided in section 2.1 of this appendix, 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.
2.4. Liquid Refrigerant Pressure Required Accuracy. The liquid refrigerant pressure required accuracy is ±35 kPa (±5.1 psi).
2.5 Commercial Refrigerator, Freezer, and Refrigerator-Freezer connected to a Direct Expansion Remote Condensing Unit with R-744. For commercial refrigerators, freezers, and refrigerator-freezers connected to a direct expansion remote condensing unit with R-744, instead of the liquid refrigerant measurements for direct-expansion remote units specified in appendix A to ASHRAE 72-2022 with Errata, the liquid refrigerant measurements for direct-expansion remote units shall be: liquid refrigerant temperature shall be 30.0 °F with a tolerance for the average over test period of ±3.0 °F and a tolerance for the individual measurements of ±5.0 °F; liquid refrigerant pressure shall be the saturated liquid pressure corresponding to a condensing temperature in the range of 32.0 °F to 44.0 °F for the average over test period; and liquid refrigerant subcooling shall be greater than 2.0 °R for the average over test period.
2.6 Chef Base or Griddle Stand Test Conditions. For chef bases or griddle stands, instead of the dry-bulb temperature, wet-bulb temperature, and radiant heat temperature specified in appendix A to ASHRAE 72-2022 with Errata: dry-bulb temperature shall be 86.0 °F with a tolerance for the average over test period of ±1.8 °F and a tolerance for the individual measurements of ±3.6 °F; wet-bulb temperature shall be 73.7 °F with a tolerance for the average over test period of ±1.8 °F and a tolerance for the individual measurements of ±3.6 °F; and radiant heat temperature shall be greater than or equal to 81.0 °F.
3. Volume and Total Display Area3.1. Determination of Volume. Determine the volume of a commercial refrigerator, freezer, and refrigerator-freezer using the method set forth in AHRI 1200-2023, appendix C, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Refrigerated Volume Calculation—Normative.”
3.2. Determination of Total Display Area. Determine the total display area of a commercial refrigerator, freezer, and refrigerator-freezer using the method set forth in AHRI 1200-2023, section 3.2.20, “Total Display Area (TDA),” and appendix D, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Total Display Area (TDA) Calculation—Normative.”
Appendix C - Appendix C to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Buffet Tables or Preparation Tables
On or after September 20, 2024, any representations, including for certification of compliance, made with respect to the energy use or efficiency of buffet tables or preparation tables must be made in accordance with the results of testing pursuant to this appendix.
0. Incorporation by ReferenceDOE incorporated by reference in § 431.63 the entire standard for AHRI 1200-2023, ASHRAE 72-2022, ASHRAE 72-2022 Errata (the latter two collectively referenced as ASHRAE 72-2022 with Errata), and ASTM F2143-16. However, only enumerated provisions of those documents are applicable to this appendix as follows:
0.1. AHRI 1200-2023
(a) Section 3.2.17, “Refrigerated Volume (Vr),” as referenced in section 2.2 of this appendix.
(b) Normative Appendix C, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Refrigerated Volume Calculation,” as referenced in section 2.2 of this appendix.
0.2 ASHRAE 72-2022 with Errata
(a) Section 5.1, “Installation and Settings,” as referenced in section 1.3 of this appendix.
(b) Section 5.2, “Wall or Vertical Partition Placement,” as referenced in section 1.3 of this appendix.
(c) Section 5.3, “Components and Accessories,” as referenced in section 1.3 of this appendix.
(d) Section 6.1, “Ambient Temperature and Humidity,” as referenced in section 1.2 of this appendix.
(e) Section 7.1, “Sequence of Operations,” as referenced in section 1.5 of this appendix.
(f) Section 7.2, “Preparation Period” (excluding sections 7.2.1 and 7.2.2), as referenced in section 1.5 of this appendix.
(g) Section 7.3, “Test Periods A and B” (excluding sections 7.3.1, 7.3.2, 7.3.3, and 7.3.4), as referenced in sections 1.5 and 1.5.1 of this appendix.
(h) Section 7.4, “Test Alignment Period,” as referenced in section 1.5 of this appendix.
(i) Section 7.5, “Determining Stability,” as referenced in sections 1.5 and 1.5.2 of this appendix.
(j) Normative Appendix A, “Measurement Locations, Tolerances, Accuracies, and Other Characteristics,” (only the measured quantities specified in section 1.2 of this appendix) as referenced in sections 1.2 and 1.5.3 of this appendix.
0.3 ASTM F2143-16
(a) Section 3, “Terminology,” as referenced in section 1.1 of this appendix.
(b) Section 6.1, “Analytical Balance Scale,” as referenced in section 1.1 of this appendix.
(c) Section 6.2, “Pans,” as referenced in section 1.1 of this appendix.
(d) Section 7, “Reagents and Materials,” as referenced in section 1.1 of this appendix.
(e) Section 9, “Preparation of Apparatus” (section 9.6 only), as referenced in sections 1.1 and 1.4.2 of this appendix.
(f) Section 10.1, “General” (section 10.1.1 only), as referenced in sections 1.1 and 1.5.3 of this appendix.
(g) Section 10.2, “Pan Thermocouple Placement,” as referenced in section 1.1 of this appendix.
(h) Section 10.5, “Test” (sections 10.5.5 and 10.5.6 only), as referenced in sections 1.1 and 1.5.1 of this appendix.
(i) Section 11.4, “Energy Consumption” (section 11.4.1 only), as referenced in section 1.1 of this appendix.
(j) Section 11.5, “Production Capacity,” as referenced in sections 1.1 and 2.1 of this appendix.
1. Test Procedure1.1. Determination of Daily Energy Consumption. Determine the daily energy consumption of each buffet table or preparation table with a self-contained condensing unit by conducting the test procedure set forth in ASTM F2143-16 section 3, “Terminology,” section 6.1, “Analytical Balance Scale,” section 6.2, “Pans,” section 7, “Reagents and Materials,” section 9.6, “Preparation of Apparatus”, section 10.1, “General” (section 10.1.1 only), section 10.2, “Pan Thermocouple Placement,” section 10.5, “Test” (sections 10.5.5 and 10.5.6 only), section 11.4, “Energy Consumption” (section 11.4.1 only), and section 11.5, “Production Capacity,” with additional instructions as described in the following sections.
1.2. Test Conditions. Ambient conditions and instrumentation for testing shall be as specified in the “Chamber conditions” and “Electricity supply and consumption of unit under test and components metered separately” portions of appendix A to ASHRAE 72-2022 with Errata and measured according to section 6.1 of ASHRAE 72-2022 with Errata and the specifications in appendix A of ASHRAE 72-2022 with Errata. The “highest point” of the buffet table or preparation table shall be determined as the highest point of the open-top refrigerated area of the buffet table or preparation table, without including the height of any lids or covers. The geometric center of the buffet table or preparation table is: for buffet tables or preparation tables without refrigerated compartments, the geometric center of the top surface of the open-top refrigerated area; and for buffet tables or preparation tables with refrigerated compartments, the geometric center of the door opening area for the refrigerated compartment.
1.3. Test Setup. Install the buffet table or preparation table according to sections 5.1, 5.2, and 5.3 of ASHRAE 72-2022 with Errata.
1.4. Test Load.
1.4.1. Pan Loading. Fill pans with distilled water to within 0.5 in. of the top edge of the pan. For pans that are not configured in a horizontal orientation, only the lowest side of the pan is filled to within 0.5 in. of the top edge of the pan with distilled water.
1.4.2. Refrigerated Compartments. Measure the temperature of any refrigerated compartment(s) as specified in section 9.6 of ASTM F2143-16. The thermocouples for measuring compartment air temperature shall be in thermal contact with the center of a 1.6-oz (45-g) cylindrical brass slug with a diameter and height of 0.75 in. The brass slugs shall be placed at least 0.5 in from any heat-conducting surface.
1.5. Stabilization and Test Period. Prepare the unit for testing and conduct two test periods to determine stability according to sections 7.1 through 7.5 of ASHRAE 72-2022 with Errata, excluding sections 7.2.1, 7.2.2, 7.3.1, 7.3.2, 7.3.3, and 7.3.4. The preparation period under section 7.2 of ASHRAE 72-2022 with Errata includes loading the test unit pans with distilled water and adjusting the controls to maintain the desired performance.
1.5.1. Test Periods A and B. Conduct two test periods, A and B, as specified in section 7.3 of ASHRAE 72-2022 with Errata (excluding sections 7.3.1, 7.3.2, 7.3.3, and 7.3.4). The 24-hour test periods shall begin with an 8-hour active period as specified in section 10.5.5 of ASTM F2143-16. Following the active period, the remaining 16 hours of the test period shall be a standby period with the pans remaining in place, any pan covers in the closed position, and with no additional door openings.
1.5.2. Stability. Average pan temperatures shall be used to determine stability, as specified in section 7.5 of ASHRAE 72-2022 with Errata, rather than average test simulator temperatures.
1.5.3. Data Recording. For each test period, record data as specified in section 10.1.1 of ASTM F2143-16, except record wet-bulb temperature rather than relative humidity. Rather than voltage, current, and power as specified in section 10.1.1 of ASTM F2143-16, record the electrical supply potential and frequency and energy consumption as specified in appendix A of ASHRAE 72-2022 with Errata.
1.6. Target Temperatures.
1.6.1. Average Pan Temperature. The average of all pan temperature measurements during the test period shall be 38 °F ±2 °F. If the unit under test is not able to be operated at this average temperature range, test the unit at the lowest application product temperature (LAPT), as defined in § 431.62. For units equipped with a thermostat, LAPT is measured at the lowest thermostat setting of the unit (for units that are only able to operate at temperatures above the specified test temperature) or the highest thermostat setting of the unit (for units that are only able to operate at temperatures below the specified test temperature).
1.6.2. Average Compartment Temperature. The average of all compartment temperature measurements during the test period shall be 38 °F ±2 °F. If the unit under test is not capable of maintaining both average pan temperature and average compartment temperature within the specified range, the average compartment temperature shall be the average temperature necessary to maintain average pan temperature within the specified range. If the unit is tested at the LAPT for the average pan temperature, as described in section 1.6.1 of this appendix, the average compartment temperature is the average of all compartment temperature measurements at that control setting.
2. Capacity Metrics2.1. Pan Volume. Determine pan volume according to section 11.5 of ASTM F2143-16.
2.2. Refrigerated Volume. Determine the volume of any refrigerated compartments according to section 3.2.17 and appendix C of AHRI 1200-2023. The refrigerated volume excludes the volume occupied by pans loaded in the open-top display area for testing.
2.3. Pan Display Area. Determine the pan display area based on the total surface area of water in the test pans when filled to within 0.5 in. of the top edge of the pan, or for test pans that are not configured in a horizontal orientation, when the lowest side of the pan is filled to within 0.5 in. of the top edge of the pan with water.
Appendix D - Appendix D to Subpart C of Part 431—Uniform Test Method for the Measurement of Energy Consumption of Blast Chillers or Blast Freezers
On or after September 20, 2024, any representations, including for certification of compliance, made with respect to the energy use or efficiency of blast chillers or blast freezers must be made in accordance with the results of testing pursuant to this appendix.
0. Incorporation by ReferenceDOE incorporated by reference in § 431.63 the entire standard for AHRI 1200-2023, ASHRAE 72-2022, and ASHRAE 72-2022 Errata (the latter two collectively referenced as ASHRAE 72-2022 with Errata). However, only enumerated provisions of those documents are applicable to this appendix as follows:
0.1 AHRI 1200-2023
(a) Appendix C, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Refrigerated Volume Calculation—Normative,” as referenced in section 1.1.1. of this appendix.
(b) Reserved.
0.2 ASHRAE 72-2022 with Errata
(a) Section 4, “Instruments,” as referenced in section 1.2 of this appendix.
(b) Section 5, “Preparation of Unit Under Test” (except section 5.4, “Loading of Test Simulators and Filler Material”), as referenced in section 1.2 of this appendix.
(c) Section 6.1, “Ambient Temperature and Humidity,” as referenced in sections 1.2 and 1.4 of this appendix.
(d) Figure 6, “Location of Ambient Temperature Indicators,” as referenced in sections 1.2 and 1.4 of this appendix.
(e) Normative Appendix A, “Measurement Locations, Tolerances, Accuracies, and Other Characteristics,” (only the measured quantities specified in section 1.2.1 of this appendix) as referenced in sections 1.2 and 1.4 of this appendix.
1. Test Procedures1.1. Scope. This section provides the test procedures for measuring the energy consumption in kilowatt-hours per pound (kWh/lb) for self-contained commercial blast chillers and blast freezers that have a refrigerated volume of up to 500 ft 3.
1.1.1. Determination of Refrigerated Volume. Determine the refrigerated volume of a self-contained commercial blast chiller or blast freezer using the method set forth in AHRI 1200-2023, appendix C, “Commercial Refrigerated Display Merchandiser and Storage Cabinet Refrigerated Volume Calculation—Normative.”
1.2. Determination of Energy Consumption. Determine the energy consumption of each covered blast chiller or blast freezer by conducting the test procedure set forth in ASHRAE 72-2022 with Errata section 4, “Instruments,” section 5, “Preparation of Unit Under Test” (except section 5.4, “Loading of Test Simulators and Filler Material”), section 6.1, “Ambient Temperature and Humidity,” Figure 6, “Location of Ambient Temperature Indicators,” and normative appendix A, “Measurement Locations, Tolerances, Accuracies, and Other Characteristics” (only the measured quantities specified in section 1.2.1 of this appendix), as well as the requirements of this appendix.
1.2.1. Measured Quantities in Normative Appendix A of ASHRAE 72-2022 with Errata. The following measured quantities shall be in accordance with the specifications of normative appendix A of ASHRAE 72-2022 with Errata: dry bulb temperature (except for deviations specified in sections 1.3 and 1.4 of this appendix), electrical supply frequency, electrical supply potential, energy consumed (except for deviations specified in section 1.3 of this appendix), extent of non-perforated surface beyond edges of unit under test, front clearance, rear or side clearance, and time measurements.
1.2.2. Additional Specifications for ASHRAE 72-2022 with Errata. The term “refrigerator” used in ASHRAE 72-2022 with Errata shall instead refer to “blast chiller” or “blast freezer,” as applicable. In section 5.3 of ASHRAE 72-2022 with Errata, the phrase “all necessary components and accessories shall be installed prior to loading the storage and display areas with test simulators and filler material” shall be replaced with “all necessary components and accessories shall be installed prior to precooling the unit under test.” Section 5.3.5 shall also require that, prior to precooling the unit under test, the condensate pan shall be dry.
1.3. Data Recording Measurement Intervals. Measurements shall be continuously recorded during the test in intervals no greater than 10 seconds.
1.4. Test Conditions. The required test conditions shall have dry bulb temperature values according to Table D.1 when measured at point A in figure 6 of ASHRAE 72-2022 with Errata and according to section 6.1 of ASHRAE 72-2022 with Errata.
Table D.1—Test Condition Values and Tolerances
Test condition | Value | Tolerance | Dry Bulb | 86.0 °F | Average over test period: ±1.8 °F.
Individual measurements: ±3.6 °F. |
---|
1.5. Product Pan. The product pan shall be a 12 in. by 20 in. by 2.5 in., 22 gauge or heavier, and 300 series stainless steel pan. If the blast chiller or blast freezer is not capable of holding the 12 in. by 20 in. by 2.5 in. product pan dimensions, the manufacturer's recommended pan size shall be used, conforming as closely as possible to the 12 in. by 20 in. by 2.5 in. pan dimensions.
1.6. Product Temperature Measurement. The product temperature shall be measured in the geometric center of the measured product pans using an unweighted thermocouple placed 5/8 of an in. above the bottom of the measured product pan. The thermocouple leads shall be secured to the bottom of the measured product pan while also allowing for the transfer of the measured product pan from the heating source into the blast chiller's or blast freezer's cabinet.
1.7. Product Preparation. The product shall be made for each product pan and shall be loaded to 2 in. of product thickness (i.e., depth) within the product pan unless an additional product pan with a product thickness of less than 2 in. is needed to meet the product capacity determined in section 2.1 of this appendix. A 20-percent-by-volume propylene glycol (1,2-Propanediol) mixture in water shall be prepared. In each product pan, pour the propylene glycol mixture over #20 mesh southern yellow pine sawdust to create a 22 percent to 78 percent by mass slurry. An example of an acceptable sawdust specification is the American Wood Fibers brand, #20 Mesh Pine Sawdust. Mix until the sawdust becomes completely saturated and leave uncovered in the product pan. Verify that the product pan thermocouple is fully submerged in the product mixture and reposition the product pan thermocouple to the requirements of section 1.6. of this appendix if the product pan thermocouple is incorrectly positioned after mixing. Each product pan shall be weighed before and after the food product simulator is added and prior to heating the product. The weight of the product shall not include the weight of the pans, thermocouples, or wires. A cumulative total of the product weight shall be calculated and the product pans shall continue to be loaded with the product mixture until the cumulative total reaches, but not exceeds, the product capacity determined in section 2.1 of this appendix with a tolerance of ±5 percent or ±2 pounds, whichever is less. The cumulative total weight of product, the weight of product in each individual pan, and the number of pans shall be recorded.
1.8. Product Pan Heating. Measured product pans shall be maintained at an average temperature of 160.0 °F ±1.8 °F and individual pan temperatures shall be maintained at 160 °F ±10 °F for a minimum of 8 hours prior to being loaded into the blast chiller or blast freezer. Non-measured product pans shall also be heated for a minimum of 8 hours prior to being loaded into the blast chiller or blast freezer and the non-measured product pans shall be placed in alternating positions with the measured product pans in the heating device. Data acquisition for the temperature of the measured product pans and time measurements shall begin to be recorded prior to the minimum of 8 hours heating period.
1.9. Product Pan Distribution. The product pans shall be spaced evenly throughout each vertical column of rack positions in the blast chiller or blast freezer without the product pans touching any other product pans and without the product pans touching the top and the bottom of the blast chiller or blast freezer cabinet. For blast chillers or blast freezers that have an additional product pan with a product thickness of less than 2 in., the additional product pan shall be placed as close to the middle rack position as possible while maintaining an even distribution of all product pans. If not all rack positions are occupied by product pans, the product pan locations shall be recorded.
1.10. Measured Product Pans. If multiple product pans are required per level of the blast chiller or blast freezer (i.e., product pans can be loaded side-by-side at the same level), only the product temperature of one product pan per level shall be measured and the product pans measured should alternate vertical columns of the blast chiller or blast freezer cabinet so that each vertical column does not have two measured product pans on sequential levels. If a blast chiller or blast freezer requires an additional product pan with a thickness less than 2 in., the additional product pan shall not be measured for product temperature.
1.11. Stabilization. The blast chiller or blast freezer shall stabilize at the test conditions specified in section 1.4 of this appendix for at least 24 hours without operating.
1.12. Pre-cool Cycle. Data acquisition for the test condition temperatures specified in section 1.4 of this appendix and time measurements shall begin to be recorded prior to the pre-cool cycle. The pre-cool cycle shall be initiated on a blast chiller or blast freezer once the stabilization specified in section 1.11 of this appendix is complete. The fastest pre-cool cycle shall be selected. The pre-cool cycle shall be complete when the blast chiller or blast freezer notifies the user that the pre-cool is complete. If the blast chiller or blast freezer does not notify the user that the pre-cool cycle is complete, the pre-cool cycle shall be deemed complete when the blast chiller or blast freezer reaches 40 °F or 2 °F based on the blast chiller's or blast freezer's sensing probe for blast chillers and blast freezers, respectively. For blast chillers or blast freezers without any defined pre-cool cycles, the fastest blast chilling or blast freezing cycle shall be run with an empty cabinet until the blast chiller or blast freezer reaches 40 °F or 2 °F based on the blast chiller's or blast freezer's sensing probe. During the pre-cool cycle, the blast chiller's or blast freezer's sensing probe shall remain in its default or holstered position. The pre-cool test data to be recorded are the test condition temperatures specified in section 1.4 of this appendix, pre-cool cycle selected, pre-cool duration, and final pre-cool cabinet temperature based on the blast chiller's or blast freezer's sensing probe.
1.13. Loading. The blast chiller or blast freezer door shall be fully open to an angle of not less than 75 °F for loading at 4.0 ±1.0 minutes after the blast chiller or blast freezer completes the pre-cool cycle as specified in section 1.12 of this appendix. The door shall remain open to load all of the product pans for the entirety of the loading procedure. The door shall remain open for 20 seconds per roll-in rack and 15 seconds per product pan for roll-in and standard blast chillers or blast freezers, respectively. The total door open period shall have a tolerance of ±5 seconds. The blast chiller's or blast freezer's sensing probe shall be inserted into the geometric center of a product pan approximately 1 in. deep in the product mixture at the median pan level in the blast chiller or blast freezer. If the product pan at the median level is the additional product pan with less than 2 in. of product thickness, the closest product pan or product pan level that is farthest away from the evaporator fan shall be used to insert the blast chiller's or blast freezer's sensing probe. If the median pan level has capacity for multiple product pans, the probed product pan shall be the furthest away from the evaporator. The sensing probe shall not touch the bottom of the product pan or be exposed to the air. The location of the product pan with the sensing probe shall be recorded. The sensing probe shall be placed so that there is no interference with the product pan thermocouple. The product pan thermocouple wiring shall not affect the energy performance of the blast chiller or blast freezer. The door shall remain closed for the remainder of the test.
1.14. Blast Chilling or Blast Freezing Cycle. Determine the blast chilling or blast freezing cycle that will conduct the most rapid product temperature pulldown that is designed for the densest food product, as stated in the blast chiller's or blast freezer's manufacturer literature. A blast chilling cycle shall have a target temperature of 38.0 °F and a blast freezing cycle shall have a target temperature of 0.0 °F. The test condition temperatures specified in section 1.4 of this appendix and the time measurements shall continue to be recorded from the pre-cool cycle. Measured product pan temperatures shall continue to be recorded from the minimum of 8-hour period of heating prior to the loading of the product pans into the blast chiller or blast freezer. Electrical supply frequency, electrical supply potential, and energy consumed shall start to be recorded as soon as the blast chiller or blast freezer door is opened to load the product pans. Once the blast chiller or blast freezer door is closed, the blast chilling cycle or blast freezing cycle shall be selected and initiated as soon as is practicable. The blast chilling cycle or blast freezing cycle selected shall be recorded. The blast chilling or blast freezing test period shall continue from the door opening until all individual measured pan temperatures are at or below 40.0 °F or 2.0 °F for blast chiller and blast freezer tests, respectively, regardless of whether the selected cycle program has terminated. If all individual measured pan temperatures do not reach 40.0 °F or 2.0 °F for blast chiller and blast freezer tests, respectively, two hours after the selected cycle program has terminated, the test shall be repeated with the target temperature lowered by 1.0 °F until all individual measured pan temperatures are at or below 40.0 °F or 2.0 °F for blast chiller and blast freezer tests, respectively, at the conclusion of the test. The duration of the blast chiller or blast freezer test shall be recorded.
1.15. Calculations. The measured energy consumption determined in section 1.14 of this appendix shall be reported in kilowatt-hours and shall be divided by the cumulative total weight of product determined in section 1.7 of this appendix in pounds.
2. Capacity Metric2.1. Product Capacity. Determine the product capacity by reviewing all manufacturer literature that is included with the blast chiller or blast freezer. The largest product capacity by weight that is stated in the manufacturer literature shall be the product capacity. If the blast chiller or blast freezer is able to operate as both a blast chiller and a blast freezer when set to different operating modes by the user and the manufacturer literature specifies different product capacities for blast chilling and blast freezing, the largest capacity by weight stated for the respective operating mode shall be the product capacity. If no product capacity is stated in the manufacturer literature, the product capacity shall be the product capacity that fills the maximum number of 12 in. by 20 in. by 2.5 in. pans that can be loaded into the blast chiller or blast freezer according to section 1.7 of this appendix. If the blast chiller or blast freezer with no product capacity stated in the manufacturer literature is not capable of meeting the definition of a blast chiller or blast freezer according to § 431.62 upon testing according to section 1 of this appendix, one 12 in. by 20 in. by 2.5 in. pan shall be removed from the blast chiller or blast freezer until the definition of a blast chiller or blast freezer is met according to § 431.62 when testing according to section 1 of this appendix.