CPC Heat Pipe Solar Collector with Solar Keymark Certificate (SHC)

China CPC Heat Pipe Solar Collector with Solar Keymark Certificate (SHC), Find details about China Solar Collector, Solar from CPC Heat Pipe Solar Collector with Solar Keymark Certificate (SHC)

Model NO.
SHC
Vacuum Tubes
58mm X 1.8m
Tube Distance
110mm
Heat Pipe
Copper
Manifold Casing
Anodized Aluminum Alloy
CPC Reflector
Polished Aluminum Sheet
Insulation
Glass Fabric, 30mm
Bracket
Aluminium Alloy, 2.7mm
Manifold Exterior
Anodized Aluminum Alloy
Manifold Interior
Red Copper
Heat Pipe Material
Tu1 Copper
Trademark
Suntask / OEM
Transport Package
Cartons /Wooden Pellet /Wooden Box
Specification
Solar Keymark CPC Heat Pipe Collector
Origin
Zhejiang, China
HS Code
8419191000
Model NO.
SHC
Vacuum Tubes
58mm X 1.8m
Tube Distance
110mm
Heat Pipe
Copper
Manifold Casing
Anodized Aluminum Alloy
CPC Reflector
Polished Aluminum Sheet
Insulation
Glass Fabric, 30mm
Bracket
Aluminium Alloy, 2.7mm
Manifold Exterior
Anodized Aluminum Alloy
Manifold Interior
Red Copper
Heat Pipe Material
Tu1 Copper
Trademark
Suntask / OEM
Transport Package
Cartons /Wooden Pellet /Wooden Box
Specification
Solar Keymark CPC Heat Pipe Collector
Origin
Zhejiang, China
HS Code
8419191000
Solar Collector with Solar Keymark (SHC)

Fast Assembly CPC Heat Pipe Solar Collector with Solar Keymark (SHC)

Model No: SHC-8/9/10/12/14/15/1618/20/21/22/24
Overheating solution, higher power output suitable less installation area, Industry heating applicable.


TECHNICAL PARAMETERS

1. Vacuum tube: SS-CU-AIN/ALN coating, Φ58*1800mm
2. Tube distance: 110mm
3. Heat pipe: copper
4. CPC reflector: polished aluminum sheet
5. Bracket: aluminum alloy, 2.7mm
6. Insulation: glass fabric, 30mm
7. Manifold casing: anodized aluminum alloy
8. Sealing material: silicon seal

ADVANTAGE

1. sunlight concentrators make the efficiency doubly increased.
2. Fast assembly CPC concentrators more easy installation and transportation.
3. 360°sunlight absorber, hot water in cloudy days.
4. Overheating protection just disassembly the CPC concentrators in summer.
5. Temperature startup more faster than the normal solar thermal collectors.
6. Applicable for the industry heating.
7. More thermal production based on the same aperture area.
8. EN12975/Solar Keymark.

TECHNOLOGY CORE 

* CPC reflector
Maximum performance at minimum dimensions.Absorber is bigger than gross surface area. Three dimensionally 360° shaped absorbers for the greatest possible energy collecting surface, utilized up to most of the diffuse and direct radiation from morning to evening.



*The power output higher 50% compare to the normal solar collectors. Smaller installation
area but equal to the same power output.



*Patented fast assembly CPC, flaky sheet, more convenient for the installation and transportation
* With EN12975/Solar Keymark 
 

                                         SPECIFICATIONS of SHC
ModelSHC
Efficiency (n°)0.668
Stagnation temperature276°C
Effective thermal capacity3.17KJ/(M²K)
Perf. test methodEN12975-2 6.1.4(outdoor)
Vacuum tubes
Material of the cover tubeHigh borosilicate glass 3.3
Number of covers1
Transmission of the cover tube0.89
Outer diameter of the cover tubeØ58.20mm
Thickness of the cover tube1.78mm
Outer diameter of the inner tubeØ46.90mm
Thickness of the inner tube1.79mm
Distance between two tubes110mm
Absorber
Solar absorptance≥93%
Hemisphercial  emittance≤5%
Surface treatmentSelective absorption coating
Material of header pipeCopper
Outer diameter of the header pipe35.14mm
Construction of the absorberEvacuated tube and heating pipe connected by Aluminium alloy
Material of the finAluminium
Thickness of the fin0.24mm
Conduction oilHT350
Thermal insulation and casing
Insulation materialglass fabric
Thickness of the thermal insulation30mm
Casing materialAnodized aluminum alloy
Sealing materialSilicon seal
Reflectors
MaterialAluminum sheet
Reflectivity0.9
Surface treatmentpolished
Limitations
Max. operation temperature120°C
Max. operation pressure1 MPa
Heat transfer mediumWater /antifreeze
Flow rate range0.01kg/(s*m²) ~ 0.034kg/(s*m²)