System and method for temperature limiting in a sealed solar energy collector
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24J-002/30
F24J-002/46
출원번호
US-0522714
(2011-01-18)
등록번호
US-8857426
(2014-10-14)
국제출원번호
PCT/IB2011/050208
(2011-01-18)
§371/§102 date
20120718
(20120718)
국제공개번호
WO2011/086534
(2011-07-21)
발명자
/ 주소
Klier, Shimon
Klier, Zvika
Adel, Michael
Efron, Royi
출원인 / 주소
Tigi Ltd.
대리인 / 주소
Friedman, Mark M.
인용정보
피인용 횟수 :
3인용 특허 :
11
초록▼
Insulated solar panels provide that provide a solar thermal collector with means for limiting stagnation temperatures and preventing damage include: temperature limiting is provided by the insulated solar panel, isolating internal components from the environment, using passive closed systems within
Insulated solar panels provide that provide a solar thermal collector with means for limiting stagnation temperatures and preventing damage include: temperature limiting is provided by the insulated solar panel, isolating internal components from the environment, using passive closed systems within the sealed solar thermal collector, while also allowing alternative implementations as active systems and/or portions of the temperature limiting system outside the sealed solar thermal collector. A heat pipe can be used as a passive thermal switch, where the temperature induced action at a predetermined temperature causes an abrupt transition from a state of thermal isolation to a state of strong thermal coupling. Additionally, a set of siphon circulation pipes provides a passive closed system for temperature limiting.
대표청구항▼
1. An apparatus comprising: (a) a solar thermal collector including an absorber and internal insulation; and(b) a heat transfer mechanism including (i) a first section inside said solar thermal collector and on a first side of said internal insulation, and in thermal contact with said absorber;(ii)
1. An apparatus comprising: (a) a solar thermal collector including an absorber and internal insulation; and(b) a heat transfer mechanism including (i) a first section inside said solar thermal collector and on a first side of said internal insulation, and in thermal contact with said absorber;(ii) a second section on a second side of said internal insulation, said second side opposite said first side, and said second section in theinial contact with an environment outside of said solar thermal collector; and(iii) an actuator;wherein below a pre-defined temperature of said first side, said actuator maintains said first side and said second side in thermal isolation, and above said pre-defined temperature said actuator is operative to enable transfer of heat from said first side to said second side. 2. The apparatus of claim 1 wherein said solar thermal collector is a sealed insulated solar panel. 3. The apparatus of claim 2 wherein said second section is inside said sealed insulated solar panel. 4. The apparatus of claim 1 wherein said second section is outside said solar thermal collector. 5. The apparatus of claim 1 wherein said environment includes a support structure of said solar thermal collector. 6. The apparatus of claim 1 wherein said second section is in thermal contact with a portion of an outer casing of said solar thermal collector. 7. The apparatus of claim 1 wherein said pre-defined temperature is in the range of 90 to 120 degrees Celsius (° C.). 8. The apparatus of claim 1 wherein said pre-defined temperature is in the range of 120 to 220° C. 9. The apparatus of claim 1 wherein said heat transfer mechanism is a heat pipe including: (a) a first end of said heat pipe corresponding to said first section of said heat transfer mechanism;(b) a second end of said heat pipe corresponding to said second section of said heat transfer mechanism;(c) a transfer pipe for transferring heat between said first section and said second section; and(d) a working fluid inside said heat pipe configured to function with said heat pipe as said actuator. 10. The apparatus of claim 1 wherein said heat transfer mechanism includes: (a) internal circulation pipes corresponding to said first section;(b) outer circulation pipes corresponding to said second section;(c) an actuator valve corresponding to said actuator, said actuator valve connecting said internal circulation pipes to said outer circulation pipes at a first location; and(d) a circulation connector pipe connecting said internal circulation pipes to said outer circulation pipes at a second location;wherein below a pre-defined temperature of a circulating fluid in said inner circulation pipes, said actuator valve is closed and said circulating fluid flows in said internal circulation pipes, and above said pre-defined temperature of a circulating fluid said actuator valve is open and said circulating fluid flows from said internal circulation pipes via said actuator valve through said outer circulation pipes and via said circulation connector pipe to said internal circulation pipes, thereby transferring heat from said first side to the environment. 11. The apparatus of claim 10 wherein said first location is at a circulation input pipe. 12. The apparatus of claim 10 wherein said second location is at a circulation output pipe. 13. The apparatus of claim 1 wherein said heat transfer mechanism is a thermal siphon including: (a) siphon circulation pipes corresponding to said first section;(b) outer circulation pipes corresponding to said second section;(c) an actuator valve corresponding to said actuator, said actuator valve connecting said siphon circulation pipes to said outer circulation pipes at a first location; and(d) a circulation connector pipe connecting said siphon circulation pipes to said outer circulation pipes at a second location;wherein below a pre-defined temperature of a circulating fluid in said siphon circulation pipes, said actuator valve is closed, and above said pre-defined temperature said actuator valve is open and said circulating fluid flows from said siphon circulation pipes via said circulation connector pipe through said outer circulation pipes and via said actuator valve to said siphon circulation pipes, thereby transferring heat from said first side to the environment via a thermal siphon effect. 14. The apparatus of claim 1 wherein said heat transfer mechanism is a venting tube including: (a) an internal portion corresponding to said first section;(b) an external portion corresponding to said second section open to an environment outside of said solar thermal collector;(c) an actuator valve corresponding to said actuator, said actuator valve connecting said first section to said second section; and(d) a fluid input pipe operationally connected to said first section;wherein below a pre-defined temperature of a venting fluid in said first section, said actuator is closed and said first section and said second section are substantially thermally isolated, and above said pre-defined temperature said actuator is open; a portion of said venting fluid is released from said first section to the environment thereby transferring heat from said first side to the environment; and said fluid input pipe provides additional venting fluid substantially equal to an amount of released venting fluid. 15. The apparatus of claim 14 wherein at substantially said pre-defined temperature a portion of said venting fluid evaporates to steam and when said actuator opens and said steam is released to the environment. 16. The apparatus of claim 14 wherein at substantially said pre-defined temperature a portion of said venting fluid evaporates to steam and said actuator is an air vent configured to open when sufficient steam has accumulated in said first section, thereby venting a pre-defined quantity of the heated steam to the environment. 17. The apparatus of claim 1 wherein said solar thermal collector is a sealed insulated solar panel and said heat transfer mechanism is an air venting conduit including: (a) an internal portion corresponding to said first section;(b) an external portion corresponding to said second section and open to an environment outside of said sealed insulated solar panel; and(c) an actuator valve corresponding to said actuator, said actuator valve connecting said first section to said second section;wherein below a pre-defined temperature of said first side, said actuator valve is closed and said first section and said second section are substantially thermally isolated, and above said pre-defined temperature said actuator valve is open allowing air to flow from a first area of the environment through said first section and via said actuator valve to said second section, thereby transferring heat from said first side to the environment. 18. An apparatus comprising: (a) a sealed insulated solar panel including an absorber and internal thermal insulation; and(b) a heat pipe including: (i) a first section inside said sealed insulated solar panel, on a first side of said internal thermal insulation, and in thermal contact with said absorber;(ii) a second section on a second side of said internal thermal insulation, said second side opposite said first side, and said second section in thermal contact with an environment outside of said sealed insulated solar panel; and(iii) a transfer pipe for transferring heat between said first section and said second section;wherein below a pre-defined temperature of said first side, said first section and said second section are substantially thermally isolated, and above said pre-defined temperature said heat pipe is operative to transfer heat from said first section to said second section. 19. The apparatus of claim 18 wherein said second section is inside said sealed insulated solar panel. 20. The apparatus of claim 18 wherein said second section is outside said sealed insulated solar panel. 21. The apparatus of claim 18 wherein said pre-defined temperature is in the range of 90 to 120 degrees Celsius (° C.). 22. The apparatus of claim 18 wherein said pre-defined temperature is in the range of 120 to 220° C. 23. The apparatus of claim 18 wherein said heat pipe is configured to operate as a passive thermal switch providing thermal isolation between said first section and said second section below said pre-defined temperature and thermal contact between said first section and said second section substantially at or above said pre-defined temperature. 24. An apparatus comprising: (a) a sealed insulated solar panel including internal circulation pipes in thermal contact with an absorber and on a first side of internal thermal insulation;(b) outer circulation pipes on a second side of said internal thermal insulation, said second side opposite said first side, and said outer circulation pipes in thermal contact with an environment outside of said sealed insulated solar panel;(c) an actuator valve connecting said internal circulation pipes to said outer circulation pipes at a first location; and(d) a circulation connector pipe connecting said internal circulation pipes to said outer circulation pipes at a second location;wherein below a pre-defined temperature of a circulating fluid in said inner circulation pipes, said actuator valve is closed and said circulating fluid flows in said internal circulation pipes, and above said pre-defined temperature said actuator valve is open and said circulating fluid flows from said internal circulation pipes via said actuator valve through said outer circulation pipes and via said circulation connector pipe to said internal circulation pipes, thereby transferring heat from said first side to the environment. 25. The apparatus of claim 24 wherein said outer circulation pipes are inside said sealed insulated solar panel. 26. The apparatus of claim 24 wherein said outer circulation pipes are outside said sealed insulated solar panel. 27. The apparatus of claim 24 wherein said actuator valve is a passive actuator valve. 28. The apparatus of claim 24 wherein said actuator valve is an active actuator valve. 29. The apparatus of claim 24 wherein said first location is at a circulation input pipe. 30. The apparatus of claim 24 wherein said second location is at a circulation output pipe. 31. An apparatus comprising: (a) a sealed insulated solar panel including internal circulation pipes in thermal contact with an absorber and on a first side of internal thermal insulation;(b) siphon circulation pipes in thermal contact with said internal circulation pipes;(c) outer circulation pipes on a second side of said internal thermal insulation, said second side opposite said first side, and said outer circulation pipes in thermal contact with an environment outside of said sealed insulated solar panel;(d) an actuator valve connecting said siphon circulation pipes to said outer circulation pipes at a first location; and(e) a circulation connector pipe connecting said siphon circulation pipes to said outer circulation pipes at a second location;wherein below a pre-defined temperature of a circulating fluid in said siphon circulation pipes, said actuator valve is closed, and above said pre-defined temperature said actuator valve is open and said circulating fluid flows from said siphon circulation pipes via said circulation connector pipe through said outer circulation pipes and via said actuator valve to said siphon circulation pipes, thereby transferring heat from said first side to the environment. 32. The apparatus of claim 31 wherein said outer circulation pipes are inside said sealed insulated solar panel. 33. The apparatus of claim 31 wherein said outer circulation pipes are outside said sealed insulated solar panel. 34. The apparatus of claim 31 wherein said actuator valve is a passive actuator valve. 35. The apparatus of claim 31 wherein said actuator valve is an active actuator valve. 36. The apparatus of claim 31 wherein said first location is at a circulation input pipe. 37. The apparatus of claim 31 wherein said second location is at a circulation output pipe. 38. An apparatus comprising: (a) a sealed insulated solar panel including an absorber and thermal insulation; and(b) a venting tube including: (i) a first section inside said sealed insulated solar panel, on a first side of said thermal insulation, and in thermal contact with said absorber;(ii) a second section on a second side of said thermal insulation, said second side opposite said first side, and said second section open to an environment outside of said sealed insulated solar panel;(iii) an actuator valve connecting said first section to said second section; and(iv) a fluid input pipe operationally connected to said first section;wherein below a pre-defined temperature of a venting fluid in said first section, said actuator valve is closed and said first section and said second section are substantially thermally isolated, and above said pre-defined temperature said actuator valve is open; a portion of said venting fluid is released from said first section to the environment thereby transferring heat from said first side to the environment; and said fluid input pipe provides additional venting fluid substantially equal to an amount of released venting fluid. 39. The apparatus of claim 38 wherein at substantially said pre-defined temperature a portion of said venting fluid evaporates to steam and when said actuator valve opens and said steam is released to the environment. 40. The apparatus of claim 38 wherein at substantially said pre-defined temperature a portion of said venting fluid evaporates to steam and said actuator valve is an air vent configured to open when sufficient steam has accumulated in said first section, thereby venting a pre-defined quantity of the heated steam to the environment. 41. An apparatus comprising: (a) a sealed insulated solar panel including an absorber and thermal insulation; and(b) an air venting conduit including: (i) a first section inside said sealed insulated solar panel, on a first side of said thermal insulation, and in thermal contact with said absorber;(ii) a second section on a second side of said thermal insulation, said second side opposite said first side, and said second section open to an environment outside of said sealed insulated solar panel; and(iii) an actuator valve connecting said first section to said second section;wherein below a pre-defined temperature of said first side, said actuator valve is closed and said first section and said second section are substantially thermally isolated, and above said pre-defined temperature said actuator valve is open allowing air to flow from a first area of the environment through said first section and via said actuator valve to said second section, thereby transferring heat from said first side to the environment.
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