Description
The vacuum tubes absorb solar radiation and transfer into heat, pass to the fin by the tube wall, and then transfer to the heat pipe by the fin, after heat pipe absorbs heat, heat pipe end vaporization, transfer to condenser, then circulation because of gravity, heating the water (medium) in the manifold.
Characteristic
1. Twin-glass vacuum tubes: Reliable, efficient, high temperature resistant, anti-freezing
2. There is no water in the vacuum tube, the system will still work even the tube broken.
3.Red copper heat pipe, one-way transferring, fast heat transfer, less heat loss, low temperature resistance, it can be used in-35℃.
4. Aluminum alloy manifold and bracket, corrosion resistance, easy to install. It's suitable for flat and sloping roof.
5. High temperature resistant polyurethane foaming/rock wool high density, good thermal insulation properties.
6. High quality copper manifold, its testing pressure is 1MPa.
7. Solar Keymark certification approved.
8. Eco and economical , Improves the environment and save your fuel cost.
Parameter
Type | TX-HPC-16 | TX-HPC--20 | TX-HPC-25 | TX-HPC-30 | |
Collector Components | Solar Vacuum Tube Φ58*1800mm | ||||
Absorbing Coating | Purple Gold Coating | ||||
Vacuum Tube Quantity and Tube Spacing | 16 Pieces*70mm | 20 Pieces*70mm | 25 Pieces*70mm | 30 Pieces*70mm | |
Aperture Area | 1.6 m2 | 2.0 m2 | 2.5 m2 | 3.0 m2 | |
Shell Material | Aluminum (L) | ||||
Insulation Material | glass wool (30mm) | ||||
Net Weight | 47KG | 58KG | 72KG | 85KG | |
Mounting Hole Dimension | B | 1757 | 1757 | 1757 | 1757 |
L1 | 1100 | 1380 | 1730 | 2080 | |
L2 | 1100 | 1380 | 1730 | 2080 | |
Dimension(D*A*H) | 1958×1260×160 | 1958×1540×160 | 1958×1890×160 | 1958×2240×160 | |
Pipe Thread Dimension | G3/4” | ||||
Reflector | NO | ||||
Principle
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.
Description
The vacuum tubes absorb solar radiation and transfer into heat, pass to the fin by the tube wall, and then transfer to the heat pipe by the fin, after heat pipe absorbs heat, heat pipe end vaporization, transfer to condenser, then circulation because of gravity, heating the water (medium) in the manifold.
Characteristic
1. Twin-glass vacuum tubes: Reliable, efficient, high temperature resistant, anti-freezing
2. There is no water in the vacuum tube, the system will still work even the tube broken.
3.Red copper heat pipe, one-way transferring, fast heat transfer, less heat loss, low temperature resistance, it can be used in-35℃.
4. Aluminum alloy manifold and bracket, corrosion resistance, easy to install. It's suitable for flat and sloping roof.
5. High temperature resistant polyurethane foaming/rock wool high density, good thermal insulation properties.
6. High quality copper manifold, its testing pressure is 1MPa.
7. Solar Keymark certification approved.
8. Eco and economical , Improves the environment and save your fuel cost.
Parameter
Type | TX-HPC-16 | TX-HPC--20 | TX-HPC-25 | TX-HPC-30 | |
Collector Components | Solar Vacuum Tube Φ58*1800mm | ||||
Absorbing Coating | Purple Gold Coating | ||||
Vacuum Tube Quantity and Tube Spacing | 16 Pieces*70mm | 20 Pieces*70mm | 25 Pieces*70mm | 30 Pieces*70mm | |
Aperture Area | 1.6 m2 | 2.0 m2 | 2.5 m2 | 3.0 m2 | |
Shell Material | Aluminum (L) | ||||
Insulation Material | glass wool (30mm) | ||||
Net Weight | 47KG | 58KG | 72KG | 85KG | |
Mounting Hole Dimension | B | 1757 | 1757 | 1757 | 1757 |
L1 | 1100 | 1380 | 1730 | 2080 | |
L2 | 1100 | 1380 | 1730 | 2080 | |
Dimension(D*A*H) | 1958×1260×160 | 1958×1540×160 | 1958×1890×160 | 1958×2240×160 | |
Pipe Thread Dimension | G3/4” | ||||
Reflector | NO | ||||
Principle
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.
