EN
Heat Pipe Solar Collector
The heat pipe solar collector always connected with existing water heating device. The selective absorber coating on the inner cover of vacuum tubes absorb solar energy, then convert solar energy into thermal energy and transfer thermal energy to heat pipe by aluminum fin. The heated liquid inside heat pipe change into vapor which rises to the top condenser, then thermal energy heat transfer liquid pass through heat exchanger and the cooled vapor becomes liquid, returning to the base of heat pipe.
- Introduction
- Main features
- Specifications
- Recommended
Product Introduction
The heat pipe solar collector always connected with existing water heating device. The selective absorber coating on the inner cover of vacuum tubes absorb solar energy, then convert solar energy into thermal energy and transfer thermal energy to heat pipe by aluminum fin. The heated liquid inside heat pipe change into vapor which rises to the top condenser, then thermal energy heat transfer liquid pass through heat exchanger and the cooled vapor becomes liquid, returning to the base of heat pipe.
The thermal energy conducts to transfer liquid via a copper pipe. This transference of heat into the liquid creates a continuous circulation as long as the collector is heated by the sun.
Main features
1) Solarkeymark certified
2) High efficiency
3) Low heat loss due to vacuum tube design
4) Suitable for cold weather, can opperate efficiently even in50°C
5) Material resistant to corrosion in all types of climates
6) Comprehensive life time more than 15 years
7) Maintenance free
8)Solar Keymark(EN12975) certified
Heat pipe solar collector application:
1) Domestic water heating, such as shower, kitchen washing.etc
2) Room heating, such as under floor and radiator heating.
3) Old heating equipment/system retrofit;
4) Large scale commercial solar water heating system, such as hotel, apartment, school, hospital.etc
Specifications
1) Vacuum tube material: Borosilicate glass 3.3
2) Manifold pipe material: Red copper
3) Heat pipe material: Red copper
4) Manifold casing material: Aluminum alloy
5) Insulation: High-density rockwool
6) Frame material: Aluminium alloy
7) Heat transfer fin material: Aluminum sheet
8) Working Pressure: 6 bars
| Item | Specification |
| Vacuum tube material | Borosilicate glass 3.3 |
| Manifold pipe material | Red copper |
| Heat pipe material | Red copper |
| Manifold casing material | Aluminum alloy |
| Insulation | High-density rockwool |
| Frame material | Aluminium alloy |
| Heat transfer fin material | Aluminum sheet |
| Working Pressure | 6 bars |
| Model | Dia | Length | Coating | Qty | Condenser | 20GP | 40GP | 40GP | Daily Output (50–90℃) |
| HSC-10 | Φ58 | 1800 | ALN/AlN-SS/Cu | 10 | Φ14 | 165 | 330 | 380 | 100L |
| HSC-12 | Φ58 | 1800 | ALN/AlN-SS/Cu | 12 | Φ14 | 145 | 300 | 340 | 120L |
| HSC-15 | Φ58 | 1800 | ALN/AlN-SS/Cu | 15 | Φ14 | 130 | 265 | 310 | 150L |
| HSC-18 | Φ58 | 1800 | ALN/AlN-SS/Cu | 18 | Φ14 | 105 | 215 | 250 | 180L |
| HSC-20 | Φ58 | 1800 | ALN/AlN-SS/Cu | 20 | Φ14 | 100 | 205 | 235 | 200L |
| HSC-24 | Φ58 | 1800 | ALN/AlN-SS/Cu | 24 | Φ14 | 92 | 190 | 220 | 240L |
| HSC-25 | Φ58 | 1800 | ALN/AlN-SS/Cu | 25 | Φ14 | 88 | 180 | 210 | 250L |
| HSC-30 | Φ58 | 1800 | ALN/AlN-SS/Cu | 30 | Φ14 | 85 | 175 | 205 | 300L |
