Air Conditioner ErP Test Report

Transcription

1 Air Conditioner ErP Test Report Report Number Test Laboratory Name / Address Applicant Name / Address Manufacturing Name / Address Product Brand Name Description Model(s) (if applicable) Indoor Unit (split system only) Outdoor Unit (split system only) Model Similarity GZU-001 Block E, No.7-2 Guang Dong Software Science Park, Caipin Road, Guangzhou Science City, GETDD, Guangzhou, China Gree Electric Appliances Inc. of Zhuhai Jinji West Road, Qianshan, Zhuhai City, Guangdong Province, China Same as applicant Air conditioners except double and single duct air conditioner GREE The product covered by this report is a household, indoor use, cord connected split-system air conditioner. GWH09RB-K3DBA5E, GWH09RB-K3DBA8E GWH09RB-K3DBA5E/I; GWH09RB-K3DBA8E/I GWH09RB-K3DBA5E/O All models are identical except for different appearance of indoor units. Rated voltage/frequency (V/Hz) Rated cooling power (W) Rated heating power (W) Rated cooling capacity (W) Rated heating capacity (W) Date of receipt of sample(s) Date of test Test standard(s) or criteria(s) EN 14511:2013+ EN 14825:2013 COMMISSION REGULATION (EU) No 626/2011 COMMISSION REGULATION (EU) No 206/2012 Conclusion Date of issue January 27, 2013 January 27, 2013 The submitted sample complied with the requirements of the COMMISSION REGULATION (EC) No.206/2012 January 8, 2016 Prepared by: Approved by: Oscar Lin Engineer Jeff Zhang Assistant Manager This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to permit copying or distribution of this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program. The test report only allows to be revised within three years from its original issued date unless further standard or the requirement was noticed. Page 1 of 18

2 Product Information Model number of Unit Under Tested Type of System Air-conditioner Type Power Supply Refrigerant Air Distribution Unit Mounting (applicable to non ducted indoor units Heat Source (Heating Mode) Heat Sink (Cooling Mode) Does this air conditioner have a variable output Type of compressor Maximum continuous frequency for cooling (applicable to inverter driven compressor only) (Hz) Maximum continuous frequency for heating (applicable to inverter driven compressor only) (Hz) GWH09RB-K3DBA5E Single Split Reverse Cycle Single Phase R410A Non-ducted N/A (ie ducted or non split type system) Air Air-cooled Yes Inverter Critical Components Name Manufacturer/tradem Type/model Technical data Compressor CHI RESOURCES C-6RZ110H1A V; 8-150HZ; 775/735W (SHENYANG) SANYO COMPRESSOR CO. LTD. Indoor fan motor Zhuhai Kaibang Motor Manufacturing CO.;LTD. FN20J-PG V; 50Hz; 20W; 0.18A; Class E Capacitor of indoor fan motor 1µF; 450V; T70 Outdoor fan motor Zhuhai Kaibang Motor Manufacturing CO.;LTD. LW40D-ZL DC 200V-370, 40W, Class E Page 2 of 18

3 Test and verification results Clause Ecodesign requirements - GENERIC ECODESIGN Result - Remark Verdict REQUIREMENTS 2a) From 1 January 2013: Non duct and double duct air Single duct and double duct air conditioners shall correspond to requirements as indicated in Tables 1, 2 and 3 conditioners Table 1 Requirements for minimum energy efficiency Table 2 Off mode: Power consumption of equipment in any off-mode condition shall not exceed 1,00 W Standby mode: The power consumption of equipment in any condition providing only a reactivation function, or providing only a reactivation function and a mere indication of enabled reactivation function, shall not exceed 1,00 W. Standby mode: The power consumption of equipment in any condition providing only information or status display, or providing only a combination of reactivation function and information or status display, shall not exceed 2,00 W. Availability of standby and/or off mode Equipment shall, except where this is inappropriate for the intended use, provide off mode and/or standby mode, and/or another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode when the equipment is connected to the mains power source. Table 3 Indoor sound power level no more than 65 db(a) 2b) From 1 January 2013, air conditioners, except single Pass and double duct air conditioners, shall correspond to minimum energy efficiency and maximum sound power level requirements as indicated in Tables 4 and 5 Table 4 Requirements for minimum energy efficiency SEER Limit: 3.60 Rated: 6.5 Measured: 6.2 Pass SCOP Limit: 3.40 Rated: 4.0 Measured: 4.0 Page 3 of 18

4 Table 5 Requirements for maximum sound power level Limit: indoor 60dB, Pass outdoor 65dB Rated: indoor 55dB, outdoor 63dB Measured: indoor 54dB, outdoor 60dB 2c) From 1 January 2014, air conditioners shall correspond to requirements as indicated in the table 6 SEER Limit: 4.30 Measured: 6.2 SCOP Limit: 3.80 Pass 2d) From 1 January 2014, single duct and double duct air conditioners and comfort fans shall correspond to requirements as indicated in Table 7 Table 7 Off mode: Power consumption of equipment in any off-mode condition shall not exceed 0,50 W. Standby mode: The power consumption of equipment in any condition providing only a reactivation function, or providing only a reactivation function and a mere indication of enabled reactivation function, shall not exceed 0,50 W. Standby mode: The power consumption of equipment in any condition providing only information or status display, or providing only a combination of reactivation function and information or status display shall not exceed 1,00 W. Measured: 4.0 Non duct and double duct air conditioners Availability of standby and/or off mode Equipment shall, except where this is inappropriate for the intended use, provide off mode and/or standby mode, and/or another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode when the equipment is connected to the mains power source. Power management When equipment is not providing the main function, or when other energy- using product(s) are not dependent on its functions, equipment shall, unless inappropriate for the intended use, offer a power management function, or a similar function, that switches equipment after the shortest possible period of time appropriate for the intended use of the equipment, automatically into: standby mode, or off mode, or another condition which does not exceed the applicable power consumption requirements for off mode and/or standby mode when the equipment is connected to the mains power source. The power management function shall be activated before delivery. Page 4 of 18

5 Information requirements for air conditioners, except double duct and single duct air conditioners. If function includes heating: Indicate the heating season the information relates to. Indicated Function (indicate if present) values should relate to one heating season at a time. Include at least the heating season 'Average'. cooling Y Average (mandatory) Y heating Y Warmer (if designated) Colder (if designated) N Y Item symbol value unit Item symbol value unit Design load Seasonal efficiency cooling Pdesignc 2.51 kw cooling SEER 6.2 heating/average Pdesignh 2.65 kw heating/average SCOP/A 4.0 heating/warmer Pdesignh kw heating/warmer SCOP/W heating/colder Pdesignh 3.82 kw heating/colder SCOP/C 3.1 Declared energy efficiency ratio (*), at indoor temperature 27(19) C and outdoor temperature Declared capacity (*) for cooling, at indoor temperature 27(19) C and outdoor temperature Tj Tj Tj = 35 C Pdc 2.51 kw Tj = 35 C EERd 3.98 Tj = 30 C Pdc 1.96 kw Tj = 30 C EERd 6.05 Tj = 25 C Pdc 1.28 kw Tj = 25 C EERd 8.83 Tj = 20 C Pdc 1.08 kw Tj = 20 C EERd 8.38 Declared capacity (*) for heating/average season, at indoor temperature 20 C and outdoor temperature Tj temperature Tj Tj = 7 C Pdh 2.33 kw Tj = 7 C COPd 2.62 Tj = 2 C Pdh 1.43 kw Tj = 2 C COPd 4.32 Tj = 7 C Pdh 0.98 kw Tj = 7 C COPd 4.72 Tj = 12 C Pdh 1.13 kw Tj = 12 C COPd 5.72 Tj = bivalent temperature Pdh 2.33 kw Tj = bivalent temperature COPd 2.62 Tj = operating limit Pdh 1.92 kw Tj = operating limit COPd 2.48 Declared capacity (*) for heating/warmer season, at indoor temperature 20 C and outdoor temperature Tj temperature Tj Tj = 2 C Pdh kw Tj = 2 C COPd Tj = 7 C Pdh kw Tj = 7 C COPd Tj = 12 C Pdh kw Tj = 12 C COPd Tj = bivalent temperature Pdh kw Declared coefficient of performance (*)/Average season, at indoor temperature 20 C and outdoor Declared coefficient of performance (*)/Warmer season, at indoor temperature 20 C and outdoor Tj = bivalent temperature COPd Tj = operating limit Pdh kw Tj = operating limit COPd Page 5 of 18

6 Declared capacity (*) for heating/colder season, at Declared coefficient of performance (*)/Colder indoor temperature 20 C and outdoor temperature season, at indoor temperature 20 C and outdoor Tj temperature Tj Tj = 7 C Pdh 2.33 kw Tj = 7 C COPd 2.62 Tj = 2 C Pdh 1.43 kw Tj = 2 C COPd 4.32 Tj = 7 C Pdh 0.98 kw Tj = 7 C COPd 4.72 Tj = 12 C Pdh 1.13 kw Tj = 12 C COPd 5.72 Tj = bivalent temperature Pdh 2.36 kw Tj = bivalent temperature COPd 3.18 Tj = operating limit Pdh 1.71 kw Tj = operating limit COPd 2.10 Tj = 15 C Pdh 2.15 kw Tj = 15 C COPd 2.45 Bivalent temperature Operating limit temperature heating/average Tbiv -7 C heating/average Tol -10 C heating/warmer Tbiv C heating/warmer Tol C heating/colder Tbiv -10 C heating/colder Tol -15 C Cycling interval capacity Cycling interval efficiency for cooling Pcycc kw for cooling EERcyc for heating Pcych kw for heating COPcyc Degradation coefficient cooling (**) Cdc Degradation coefficient heating (**) Cdh Electric power input in power modes other than active mode Annual electricity consumption off mode POFF kw cooling QCE 142 kwh/a standby mode PSB 04 kw heating/average QHE 920 kwh/a thermostat-off mode PTO 4 kw heating/warmer QHE kwh/a crankcase heater mode PCK 3 kw heating/colder QHE 2367 kwh/a Capacity control (indicate one of three options) Other items fixed staged variable N N Y Sound power level (indoor/outdoor) Global warming potential Rated air flow (indoor/outdoor) LWA 53.5 / 60.2 db(a) GWP 2088 kgco2 eq. 600 / 1800 m3/h Page 6 of 18

7 Cooling Test (Test A) Total Cooling Capacity (W) Sensible cooling capacity (W) Latent cooling capacity (W) EER (Energy Efficiency Ratio) (W/W) Cooling Test (Test B) Total Cooling Capacity (W) Sensible cooling capacity (W) Latent cooling capacity (W) EER (Energy Efficiency Ratio) (W/W) Page 7 of 18

8 Cooling Test (Test C) Total Cooling Capacity (W) Sensible cooling capacity (W) Latent cooling capacity (W) EER (Energy Efficiency Ratio) (W/W) Cooling Test (Test D) Total Cooling Capacity (W) Sensible cooling capacity (W) Latent cooling capacity (W) EER (Energy Efficiency Ratio) (W/W) Page 8 of 18

9 Heating Test (Average Climate Test A) , Heating Test (Average Climate Test B) Page 9 of 18

10 Heating Test (Average Climate Test C) Heating Test (Average Climate Test D) Page 10 of 18

11 Heating Test (Average Climate Test E) Page 11 of 18

12 Heating Test (Colder Climate Test A) Heating Test (Colder Climate Test B) , Page 12 of 18

13 Heating Test (Colder Climate Test C) Heating Test (Colder Climate Test D) Page 13 of 18

14 Heating Test (Colder Climate Test E) Heating Test (Colder Climate Test F) Page 14 of 18

15 Photo - Indoor unit view Page 15 of 18

16 Labels: Indoor unit label Page 16 of 18

17 Outdoor unit label Page 17 of 18

18 Energy Label Page 18 of 18