IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0104300
(2008-04-16)
|
등록번호 |
US-7854131
(2011-02-14)
|
발명자
/ 주소 |
- Ullman, Alan Z.
- Newman, Clyde D.
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
8 |
초록
▼
A thermal buffer for an intermittent thermal load, e.g., a directed energy weapon (DEW) system, includes a phase change heat exchanger (PCHEX), an apparatus for circulating a first working fluid of the thermal load through first conduits of the PCHEX cell in a first direction such that heat is trans
A thermal buffer for an intermittent thermal load, e.g., a directed energy weapon (DEW) system, includes a phase change heat exchanger (PCHEX), an apparatus for circulating a first working fluid of the thermal load through first conduits of the PCHEX cell in a first direction such that heat is transferred between the first fluid and a phase change material (PCM) of the PCHEX in a second direction and causes a first phase change in the PCM, and an apparatus for circulating a second working fluid of, e.g., a heat pump through second conduits of the PCHEX in a third direction opposite to the first direction such that heat is transferred between the second fluid and the PCM in a fourth direction opposite to the second direction and results in a second phase change in the PCM opposite to the first phase change therein.
대표청구항
▼
What is claimed is: 1. A phase change heat exchanger (PCHEX) cell for a thermal buffer, comprising: a plurality of generally parallel first and second conduits extending through a sealed housing and arranged in an alternating manner, each conduit having opposite inlet and outlet ends, the inlet end
What is claimed is: 1. A phase change heat exchanger (PCHEX) cell for a thermal buffer, comprising: a plurality of generally parallel first and second conduits extending through a sealed housing and arranged in an alternating manner, each conduit having opposite inlet and outlet ends, the inlet ends of the first conduits being disposed at an opposite end of the housing from the inlet ends of the second conduits; first and second headers respectively coupled to the respective inlet ends of the first and second conduits, each header having a fluid inlet and being disposed at an opposite end of the housing from the other header; first and second collectors respectively coupled to the respective outlet ends of the first and second conduits, each collector having a fluid outlet and being disposed at an opposite end of the housing from the other header; a thermally conductive matrix disposed within the housing and between the conduits, the matrix being thermally coupled to exterior walls of the conduits and defining a plurality of interstitial voids therein; and, a phase change material (PCM) disposed within and substantially filling the interstitial voids of the matrix. 2. The PCHEX cell of claim 1, wherein the PCM comprises water, a paraffin wax or a eutectic solution. 3. The PCHEX cell of claim 1, wherein the thermally conductive matrix comprises a metal or a ceramic. 4. The PCHEX cell of claim 1, further comprising a thermally conductive matrix disposed within and thermally coupled to interior walls of at least some of the first and second conduits. 5. The PCHEX cell of claim 1, further comprising a plurality of thermally conductive fins coupled to interior walls of at least some of the first and second conduits. 6. A method for cooling an intermittent heat load using the PCHEX cell of claim 1, the method comprising: circulating a first working fluid of the heat load through the first conduits of the PCHEX cell in a first direction such that heat is transferred from the first fluid to the PCM of the PCHEX cell and causes a solid portion of the PCM to melt; and, circulating a second working fluid of a heat pump through the second conduits of the PCHEX cell in a second direction opposite to the first direction such that heat is transferred from the PCM to the second fluid and causes a liquid portion of the PCM to solidify. 7. A method for heating an intermittent cold load using the PCHEX cell of claim 1, the method comprising: circulating a first working fluid of the cold load through the first conduits of the PCHEX cell in a first direction such that heat is transferred from the PCM of the PCHEX cell to the first fluid and causes a liquid portion of the PCM to solidify; and, circulating a second working fluid of a heat pump through the second conduits of the PCHEX cell in a second direction opposite to the first direction such that heat is transferred from the PCM to the second fluid and causes a solid portion of the PCM to melt. 8. The method of claim 6, wherein the first working fluid enters the first conduits at a temperature greater than the melting temperature of the PCM and the second working fluid enters the second conduits at a temperature lower than the freezing temperature of the PCM. 9. The method of claim 7, wherein the first working fluid enters the first conduits at a temperature lower than the freezing temperature of the PCM and the second working fluid enters the second conduits at a temperature greater than the melting temperature of the PCM. 10. The method of claim 6, wherein the first working fluid comprises hydrogen peroxide or water and the second working fluid comprises brine, glycol, Freon or a functional equivalent of Freon. 11. A phase change heat exchanger (PCHEX) for a thermal buffer comprising a plurality of the PCHEX cells of claim 1 coupled to each other in series. 12. A thermal buffer system, comprising: a phase change heat exchanger (PCHEX) cell, comprising: a plurality of generally parallel first and second conduits extending through a sealed housing and arranged in an alternating manner, each conduit having opposite inlet and outlet ends, the inlet ends of the first conduits being disposed at an opposite end of the housing from the inlet ends of the second conduits; first and second headers respectively coupled to the respective inlet ends of the first and second conduits, each header having a fluid inlet and being disposed at an opposite end of the housing from the other header; first and second collectors respectively coupled to the respective outlet ends of the first and second conduits, each collector having a fluid outlet and being disposed at an opposite end of the housing from the other header; a thermally conductive matrix disposed within the housing and between the conduits, the matrix being thermally coupled to exterior walls of the conduits and defining a plurality of interstitial voids therein; and, a phase change material (PCM) disposed within and substantially filling the interstitial voids of the matrix. an apparatus for circulating a first working fluid of an intermittent thermal load through the first conduits of the PCHEX in a first direction such that heat is transferred between the first fluid and the PCM of the PCHEX in a second direction and causes a first phase change in the PCM; and, an apparatus for circulating a second working fluid of a heat pump through the second conduits of the PCHEX in a third direction opposite to the first direction such that heat is transferred between the second fluid and the PCM in a fourth direction opposite to the second direction and causes a second phase change in the PCM opposite to the first phase change therein. 13. The thermal buffer system of claim 12, wherein the intermittent thermal load comprises a heat load and the heat pump consists of a refrigeration unit. 14. The thermal buffer system of claim 12, wherein the intermittent thermal load comprises a cold load and the heat pump consists of a heating unit. 15. The thermal buffer system of claim 13, wherein the first working fluid enters the first conduits at a temperature greater than the melting temperature of the PCM and the second working fluid enters the second conduits at a temperature lower than the freezing temperature of the PCM. 16. The thermal buffer system of claim 14, wherein the first working fluid enters the first conduits at a temperature lower than the freezing temperature of the PCM and the second working fluid enters the second conduits at a temperature greater than the melting temperature of the PCM. 17. The thermal buffer system of claim 12, wherein the system comprises a plurality of the PCHEX cells coupled to each other in series. 18. The thermal buffer system of claim 12, wherein the intermittent load comprises a directed energy weapon (DEW). 19. The thermal buffer system of claim 18, wherein the DEW comprises laser diodes or a Chemical Oxygen Iodine Laser (COIL). 20. The thermal buffer system of claim 18, wherein the DEW and buffer system are disposed aboard an aircraft. 21. A method for heating or cooling an intermittent thermal load, the method comprising: circulating a first working fluid of the load through a first conduit of a phase change heat exchanger (PCHEX) in a first direction such that heat is transferred between the first fluid and a phase change material (PCM) of the PCHEX in a second direction and causes a first phase change in the PCM; and, circulating a second working fluid of a heat pump through a second conduit of the PCHEX in a third direction opposite to the first direction such that heat is transferred between the second fluid and the PCM in a fourth direction opposite to the second direction and causes a second phase change in the PCM opposite to the first phase change therein.
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