Detailed Product Description
split pressurized solar water
heater
The split solar water heater
Description:
This high efficiency Vacuum Tube
Split Pressure Solar Water Heater contains almost everything needed
for a solar hot water heating system. It can be easily integrated
with your house, the solar collectors can be installed on general
different type of roofs, and tank can be placed anywhere as you
like.
The JINYI Solar JHC Range of Vacuum Tube heat pipe solar collectors
offer excellent value as they have both a very low cost per kWh of
output and a high efficiency. The collectors are also very easy to
transport and handle as the tubes can be disconnected from the
manifold of the collector.
The Vacuum Tube Split
pressurized Solar Water Heater contains:
Solar thermal collector (vacuum
tube or flat plate) which absorbs solar radiation (sunlight) and
changes it into heat;
Circulating pump which transfers
the heat from the collector to hot water in a storage
tank;
Solar hot water tank accumulates
the hot water produced by solar energy so that it can be stored for
use when needed;
Accessories which ensure the
regulation and the safety of the system;
Back-up heater (gas, oil, or wood
fuelled boiler, immersion heater or heat pump) which will bring the
hot water to the temperature required when there is not enough
sunlight to do so (mostly in winter).
In most area, solar collectors
alone cannot provide all the hot water for a household's needs
throughout the year. Correctly sized they will supply 60% of heat /
domestic hot water needs. They are normally installed in
conjunction with a conventional back-up heating system.
Solar thermal collector evacuated
tubes collect and convert sunshine energy into thermal energy,
which is transferred to the central heat pipes in the tubes through
the aluminum fins bridging the tube inner surfaces and the heat
pipes. The copper heat pipes have tiny amount of purified water
sealed in them at depressurized condition. When heated, the water
inside the heat pipes vaporizes at low temperature (about 30 deg.
C). The vapor (steam) rises to the pipe tips inserted into the
water contained in the tank. Vapor is cooled down and becomes
condensate falling to the bottom of the pipes. By continuously
circulating this way, heat is carried from outside to the water
inside the tank.
Components:
1. 1 x JHC-5818-18 heat pipe solar
collector 2.30m? (1.687m? aperture)
2. 4 x Roof hooks
(JRH1)
3. 1 x Air vent valve
(JAVV)
4. 1 x Female equal tee 1/2"
(JFET)
5. 2 x Straight adaptor
3/4"-1/2"(JCFSMA)
6. 1 x Equal male straight
1/2"(JES)
7. 1 x 150 litre one coil 304
stainless steel tank including insulation
8. 1 x Exchanger of copper coil
inside of tank, dia. 12 x 1.0mm, 15m
9. 1 x Electric heater 1500W
(JEH2)
10. 1 x Magnesium rod
(JMR2)
11. 1 x T/P valve
(JTP)
12. 1 x Relief check valve
(JRCV)
13. 1 x JPS1 solar pump
station
14. 1 x 5 litre expansion vessel
(JEV-5) with connectors
15. 1 x Safety valve
(JPSV)
16. 1 x "Wilo" circulating pump
(RS15/6)
17. 1 x Controller (SR868C8Q)
with two sensors for tank and one sensor for collector
18. 1 x Manometer
19. 1 x Flow meter
Packing
dimension:
1) Tank with its accessories
(0.477m?): 1550 x 550 x 550mm (1carton)
2) Pump station with its
accessories (0.035m?): 520 x 340 x 200mm (1carton)
3) Vacuum tubes with heat pipe
(0.214m?): 1940 x 220 x 250mm (2cartons)
4) Collector manifold with
frame(0.060m?): 2000 x 150 x 200mm (1carton)
Total 6cartons, 0.782m?
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