Test Report No. C908LPEN



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Institut für Solartechnik Hochschule für Technik Rapperswil Oberseestrasse 10, CH 8640 Rapperswil Tel +41 55 222 48 21, Fax +41 55 222 48 44 www.solarenergy.ch Ordered by: Changzhou He Jia Solar Energy Co., Ltd. No. 16, Chingjiao rd, Dongqing town Changzhou, Jiangsu CN-213114 Changzhou Tel. +86 519 8967878 Fax: +86 519 8967868 Test Report No. C908LPEN Performance test according to EN 12975-2:2006, Paragraph 6 Content: page 1 Description of Collector...2 1.1 Technical Data of the Sample...2 1.2 Sketch of Collector...3 1.3 Specifications on Elements...3 1.4 Photo of Collector...4 1.5 Sketch of Collector Mounting...4 2 Test Methods and Results...5 2.1 Test of Thermal Performance...5 2.2 Schematic of the Test Loop...5 2.3 Power Output...6 2.4 Incident Angle Factor...9 2.5 Time Constant...10 2.6 Effective Thermal Capacity...10 2.7 Pressure Drop...11 2.8 Observed Failures...12 3 Remarks...12 page 1 of 12 pages

1 Description of Collector 1.1 Technical Data of the Sample Product information Manufacturer Changzhou He Jia Solar Energy Co., Ltd. Model HCA-58/20 Type Evacuated tube collector Flow Heat Pipe Serial product Yes A complete set of technical Drawing number drawings is filed at the test institute. Serial number HJFPB2007-5-28-3-3 Date of manufacture 28.05.2007 Absorber Absorber element Evacuated double glass tube Length of absorber element 1725 mm Width of absorber element 47 mm Thickness of absorber element 1.6 mm Coating Al-N/Al Flowed through element Copper pipe/heat pipe Joining technique Heat conducting aluminum sheets Joining seam -- Physical parameters Gross length 1.990 m Gross width 1.403 m Gross heigth 0.153 m Gross area 2.792 m² Aperture area 1.891 m² Absorber area 1.622 m² Weight empty 66.5 kg Fluid capacity 1.2 l Construction Type Number of absorber elements Absorber pitch Number of hydraulically parallel tubes Number of thermally serial glazings Material of glazing(s) Thickness of glazing(s) Evacuated tube collector 20 70.1 mm 1 1 Borosilicate glass 1.6 mm Heat transfer fluid (manufacturers recommendation) Type Water-glycol Specifications -- Flow range (manufacturers recommendation) Flow range 72-1200 l/h Rated flow rate 120 l/h Installation On tilted roof In tilted roof On flat roof On flat roof with stand Facade Casing and insulation Casing material Sealing material Insulation material Yes No No Yes No Aluminium Silicone Glass wool compression-moulded Thickness (in mm) 40 Aperture dimensions 1.725 m * 0.0548 m * 20 Limitations (manufacturer information) Max. temperature 250 C Max. operating pressure 6 bar Other -- Remarks on collector design -- Test schedule Test procedure EN12975:2006, Outdoor test Sample received 21.09.2007 Start of test 16.10.2007 End of test 20.02.2008 page 2 of 12 pages

1.2 Sketch of Collector 1.3 Specifications on Elements 1 Glazing Material: Borosilicate glass Thickness [mm]: 1.6 2 Heat-conducting metal sheet Description: 3 Heat pipe Description: Aluminum Copper 4 Vacuum 5 Absorber Absorber element: Evacuated double glass tube Flow-through element: Copper pipe/heat pipe Length of element [mm]: 1725 Width of element [mm]: 47 Flow type: Serial Joining technique: Heat conducting aluminum sheets 5 Absorber coating Description: Manufacturing process: Al-N/Al Magnetron Sputter CVD page 3 of 12 pages

1.4 Photo of Collector 1.5 Sketch of Collector Mounting page 4 of 12 pages

2 Test Methods and Results 2.1 Test of Thermal Performance Tests carried out according to EN 12975-2: 2006. Deviations from this standard are indicated by the same formatting that is used for this clause. The reasons for the deviations are mentioned. 2.2 Schematic of the Test Loop Fig. 2.1: Test loop for efficiency measurements. page 5 of 12 pages

2.3 Power Output 2.3.1 General Flow rate during test Fluid for tests Test method Geographical position of test site 120.0 l/h 33.3 Vol-% ethylene glycol stationary (steady state) 47.2 N / 8.8 O, 417 m NN Collector tilt angle tracked (45±5) Collector azimuth angle tracked (0±48) Definition of efficiency η = Q A G Thermal output power of collector Q & Reference area Solar irradiance Solar irradiance on reference area Efficiency equation Temperature at collector inlet Temperature at collector outlet Ambient temperature A G A G η = η T in T ex T a * * 2 0 a1 Tm a2 G Tm Mean collector temperature T = ( T T ) 2 m in + Reduced collector temperature T = ( T T ) G * m m ex a Solar irradiance for efficiency diagrams G = 800 W/m² page 6 of 12 pages

2.3.2 Power output per collector unit 2.3.2.1 Peak power Peak power W peak per collector unit for normal incident irradiation of 1000 Wm -2. W peak = 1236 [W] 2.3.2.2 Diagram 1400 Power output per collector unit for G = 1000 W/m 2 1200 1000 800 600 400 200 0 0 10 20 30 40 50 60 70 80 90 100 T m - T a [K] Fig. 2.2: Power output per collector unit at irradiance G = 1000 W/m² 2.3.2.3 Power output per collector unit Global irradiance G T m - T a G=400 W/m² G=700 W/m² G=1000 W/m² 10 K 459 W 830 W 1200 W 30 K 380 W 751 W 1122 W 50 K 291 W 662 W 1033 W page 7 of 12 pages

2.3.3 Efficiency curve The efficiency curves with reference to the absorber-, aperture- and gross areas are indicated in addition to the requirements of the norm. 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 Collector efficiency for G = 800 W/m 2 Absorber Aperture Gross 0.0 0.00 0.01 0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10 T m * [Km 2 /W] Fig. 2.3: Efficiency diagram for G = 800 W/m² 2.3.3.1 Parameters for efficiency equation Reference area Absorber area Aperture area Gross area η 0 (-) 0.762 0.654 0.443 a 1 (W/m²K) 2.12 1.82 1.23 a 2 (W/m²K²) 0.0077 0.0066 0.0045 From repetitive measurements of a reference collector, we estimate the following dispersion for the efficiency measurement (standard deviation of the mean, multiplied with a coverage factor 2): At T m *=0.02: 0.27 Efficiency-%, at T m *=0.05: 0.44 Efficiency -%, at T m *=0.08: 0.62 Efficiency -%. page 8 of 12 pages

2.4 Incident Angle Factor 2.4.1 Table of the Incidence Angle Modifier (IAM) 0 10 20 30 40 50 60 70 80 90 K Θ (longitudinal) 1.00 1.00 1.00 0.99 0.97 0.94 0.87 0.73 0.47 0.00 K Θ (transversal) 1.00 1.00 1.04 1.15 1.30 1.36 1.34 1.11 0.62 0.00 2.4.2 Diagram of the Incidence Angle Modifier 1.60 1.40 Incident Angle Modifier IAMT IAML 1.20 1.00 0.80 0.60 0.40 0.20 0.00 0 10 20 30 40 50 60 70 80 90 Angle [ ] Fig. 2.4: Incident angle modifiers page 9 of 12 pages

2.5 Time Constant τ C = 862 s 2.6 Effective Thermal Capacity 2.6.1 Determination according to EN12975-2:2006, Annex G.3 Determination based on transient behaviour of the collector. C eff,g3 = 205.3 kj/k (Effective thermal capacity of collector filled with fluid) Additional information: The thermal capacity was measured with the properties of Antifrogen N. For other fluids, the thermal capacity is calculated as follows: C eff,g3 = 1.2 l * density * specific heat capacity of fluid + 200.9 kj/k 2.6.2 Determination according to EN12975-2:2006, Section 6.1.6.2 Estimation based on material properties. C eff,6162 = 26.9 kj/k (Effective thermal capacity of collector filled with fluid) Additional information: The thermal capacity was measured with the properties of Antifrogen N. For other fluids, the thermal capacity is calculated as follows: C eff,6162 = 1.2 l * density * specific heat capacity of fluid + 22.5 kj/k page 10 of 12 pages

2.7 Pressure Drop 2.7.1 Diagram 10000 Pressure drop in Pa 9000 8000 20 C 7000 6000 5000 4000 3000 2000 1000 0 0 200 400 600 800 1000 1200 Fig. 2.5: Pressure drop as a function of volume flowrate Flowrate [l/h] 2.7.2 Pressure drop at rated flowrate Conditions: T m = 20 C and dv/dt = 120 l/h p = 224 Pa 2.7.3 Table of pressure drop data in Pa Conditions: T m = 20 C Flow rate [l/h] 0 250 500 750 1000 1250 Pressure drop [Pa] 0 615 1800 3555 5878 8771 page 11 of 12 pages

2.8 Observed Failures Details about failures that are rated as major failures according to paragraph 5.3.1 of EN12975-1:2006. Absorber leakage or such deformation that permanent contact between absorber and cover is established. Breaking or permanent deformation of cover or cover fixing. Breaking or permanent deformation of collector fixing points or collector box. Loss of vacuum or low pressure (applicable for vacuum or subatmospheric collectors) Accumulation of humidity in form of condensate on the inside of the transparent cover of the collector exceeding 10% of the aperture area Passed Passed Passed Passed Passed No major failures according to paragraph 5.3.1 of EN12975-1:2006 were found for this collector. 3 Remarks This report must not be copied except in full. The test methods applied fulfil the requirements of EN12975:2006. The test results only refer to the tested collector sample. This test report is made according to the requirements of EN12975:2006. This test report fulfils the requirements of ISO17025. Rapperswil, 06.06.2008 Dr. Andreas Bohren Head of SPF Testing Dipl.-Ing. Walter Gubler Test engineer page 12 of 12 pages

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