Light Heat Energy
Retrofit systems
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Light Heat Energy |
Retrofit systems |
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In the
U.S.A. for more information on Solar Homes, hot water systems, retrofit systems,
turbines, photovolotics etc. Call
Toll Free
1-877-846-5687
Closed loop systems use heat-exchangers that circulate heat-transfer fluids through the panels and feed pipes. This type of system is called a closed-loop system, because the solar exchange fluid is closed-off from the external atmosphere or isolated from the potable water through utilization of a heat exchanger.
A closed-loop system works essentially by heating solar fluid that is pumped through the solar collectors. The heated solar fluid flows through a copper or stainless steel heat exchanger located near the solar storage tank. The heat from the solar fluid transfers to the potable water within the solar storage tank. Another small circulator pump may be used to circulate the water through the potable side of the heat exchanger.
Drainback systems work slightly differently to closed-loop systems described above.
The anti-freeze heat exchange fluids can withstand freezing temperatures, allowing the system to operate during periods when there is the greatest temperature difference between cold incoming water, and temperatures reached in the solar collectors. The system can have the greatest performance benefits at this time. Also, if maintained properly, these systems will not corrode or scale the passage ways in the solar collectors and pipes. Closed-loop systems tend to have the lowest overall operating costs --other than passive systems-- and are especially adapted to work in regions with extended periods of freezing temperatures, and commercial environments that are used daily (including weekends).
A closed-loop system is a good alternative to consider if installation conditions inhibit installing a drainback system, for example because the feed and return pipes to the solar panels cannot be plumbed at an adequate slope (usually 0.25inch per 1 horizontal foot or steeper).
Closed-loop systems tend to have the highest installation cost associated with them. They heat water slightly less efficiently than direct open-loop systems, (but can work more and longer when it is risky to operate open-loop systems). These systems are designed to operate daily, and may overheat (releasing heat transfer fluid) if the fluid in the closed-loop does not circulate during a hot summer day --for example, when a unit is shutoff because residents leave for vacation. At these times, instructions sometimes call for panels to be covered to prevent discharges due to overheating.
Closedloop systems are configured according to energy demands, solar energy availability and other factors at the point of installation. Closed-loop systems generally consist of at least these parts:
 | 1: SB sensor, 10K |
| 2: MaidOMist Air Vent No.71 |
| 3: sensor wire |
| 4: Taco 005F2 Cartridge Circulator |
| 5: T/P Pressure Relief Valve 212F,150psi |
| 6: SB sensor, 10K |
| 7: T/P Pressure Relief Valve, part of existing tank No.18 |
| 8: Letro SL-2DW3 Thermometer |
| 9: Watts 70A Tempering Valve |
| 10: hot water output |
| 11: cold water feed line |
| 12: knob adjusts water temperature output |
| 13: Thomlinson Quadflow bypass "H" valve |
| 14: NIBCO S-480 In-line Check Valve |
| 15: solar panel inlet |
| 16: T/P Pressure Relief Valve 212F,150psi |
| 17: KS-40 Clear Coat Flat-Plate Solar Panel |
| 18: existing hot water tank, 40 to 60 gallon, electric or gas (optional) |
| 19: Rheem Storage Tank, 80gal with internal heat exchanger* |
| 20: goldline-gl30 Goldline GL-30 differential controller |
| 21: pressure gauge |
| 22: Expansion Tank |
| 23: Letro LDF357B flowmeter |
In the U.S.A. for more information on Solar Homes, hot water systems, retrofit systems, turbines, photovolotics etc. Call
Toll Free
1-877-846-5687