A heat exchange circulation system includes a first and a second heat exchangers, an expansion device, and a compressor. There is a first flow path in the first heat exchanger and a second flow path in the second heat exchanger. The expansion pipe of the expansion device is connected to the second g
A heat exchange circulation system includes a first and a second heat exchangers, an expansion device, and a compressor. There is a first flow path in the first heat exchanger and a second flow path in the second heat exchanger. The expansion pipe of the expansion device is connected to the second gas outlet of the second flow path and the first gas inlet of the first flow path. The compression pipe of the compressor is connected the first gas outlet of the first flow path and the second gas inlet of the second flow path. The first flow path, the compression pipe, the second flow path and the expansion pipe together form a heat exchange circuit. The liquid exists in the first flow path and the second flow path and the gas mixture circulates in the heat exchange circuit.
대표청구항▼
1. A heat exchange circulation system, comprising: a first heat exchanger which includes a first flow path that has a first gas inlet and a first gas outlet;a second heat exchanger which includes a second flow path that has a second gas inlet and a second gas outlet;a third heat exchanger which incl
1. A heat exchange circulation system, comprising: a first heat exchanger which includes a first flow path that has a first gas inlet and a first gas outlet;a second heat exchanger which includes a second flow path that has a second gas inlet and a second gas outlet;a third heat exchanger which includes a third flow path, and a fourth flow path in thermal contact with the third flow path, the third flow path has a third gas inlet and a third gas outlet, the fourth flow path has a fourth gas inlet and a fourth gas outlet, the third gas inlet is connected to the first gas outlet, the fourth gas inlet is connected to the second gas outlet:an expansion device which includes an expansion pipe that is connected to the fourth gas outlet and the first gas inlet; anda compressor which includes a compression pipe that is connected to the third gas outlet and the second gas inlet;wherein the first flow path, the third flow path, the compression pipe, the second flow path, the fourth flow path and the expansion pipe together form a heat exchange circuit, the heat exchange circuit has a fluid medium flowing within it, the fluid medium includes a liquid and a gas mixture, the liquid exists in the first flow path, the second flow path, the third flow path and the fourth flow path, and the gas mixture circulates in the heat exchange circuit; andthe first flow path, the second flow path, the third flow path and the fourth flow path are connected by a liquid return line, which delivers the liquid from the second flow path and the fourth flow path to the first flow path and the third flow path. 2. The heat exchange circulation system according to claim 1, wherein the first heat exchanger is a plate type heat exchanger for the heat exchange between the first flow path and a heat absorbing pipe. 3. The heat exchange circulation system according to claim 2, wherein the first heat exchanger includes multiple separated plates stacked together to provide a plurality of heat exchange regions among which those represented by odd-numbered heat exchange regions forms either the first flow path or the heat absorbing pipe, and those represented by even-numbered heat exchange regions forms the remainder of the first flow path or the heat absorbing pipe selected for the odd-numbered heat exchange regions. 4. The heat exchange circulation system according to claim 1, wherein the second heat exchanger is a plate type heat exchanger for the heat exchange between the second flow path and a heat dissipating pipe. 5. The heat exchange circulation system according to claim 4, wherein the second heat exchanger is composed of multiple separated plates stacked together to provide a plurality of heat exchange regions among which those represented by odd-numbered heat exchange regions forms either the second flow path or the heat dissipating pipe, and those represented by even-numbered heat exchange regions forms the remainder of the second flow path or the heat dissipating pipe selected for the odd-numbered heat exchange regions. 6. The heat exchange circulation system according to claim 1, wherein the third heat exchanger is a plate type heat exchanger for the heat exchange between the third flow path and the fourth flow path. 7. The heat exchange circulation system according to claim 6, wherein the third heat exchanger comprises multiple separated plates stacked together to provide a plurality of heat exchange regions among which those represented by odd-numbered heat exchange regions forms either the third flow path or the fourth flow path, and those represented by even-numbered heat exchange regions forms the remainder of the third flow path or the fourth flow path selected for the odd-numbered heat exchange regions. 8. The heat exchange circulation system according to claim 1, wherein the liquid is a liquid water and the gas mixture is a mixture of a water vapor and air. 9. The heat exchange circulation system according to claim 1, further comprising a plurality of porous heat transfer medium that is installed the first flow path and the second flow path. 10. The heat exchange circulation system according to claim 9, wherein the porous heat transfer medium is a metal foam. 11. The heat exchange circulation system according to claim 1, further comprising a transmission device, the expansion device including a blade installed in the expansion pipe, the transmission device being connected to an axis of the blade and the compressor for transferring a work produced by the gas mixture upon turning the blade to the compressor. 12. A heat exchange circulation system, comprising: a first heat exchanger which includes a first flow path that has a first gas inlet and a first gas outlet;a second heat exchanger which includes a second flow path that has a second gas inlet and a second gas outlet;a third heat exchanger which includes a third flow path, and a fourth flow path in thermal contact with the third flow path, the third flow path has a third gas inlet and a third gas outlet, the fourth flow path has a fourth gas inlet and a fourth gas outlet, the third gas inlet is connected to the first gas outlet, the fourth gas inlet is connected to the second gas outlet;an expansion device which includes an expansion pipe that is connected to the fourth gas outlet and the first gas inlet;a compressor which includes a compression pipe that is connected to the third gas outlet and the second gas inlet;wherein the first flow path, the third flow path, the compression pipe, the second flow path, the fourth flow path and the expansion pipe together form a heat exchange circuit, the heat exchange circuit has a fluid medium flowing within it, the fluid medium includes a liquid and a gas mixture, the liquid exists in the first flow path, the second flow path, the third flow path and the fourth flow path, and the gas mixture circulates in the heat exchange circuit; anda non-volatile solute that is dissolved in the liquid of the fourth flow path. 13. The heat exchange circulation system according to claim 12, wherein the non-volatile solute is salt. 14. The heat exchange circulation system according to claim 13, wherein the non-volatile solute is common salt or bromide salt. 15. The heat exchange circulation system according to claim 12, wherein the second heat exchanger further includes a fifth flow path in thermal contact with the second flow path, and the heat exchanger circulation system further includes: a dilute solution transmission line connected to the fourth flow path and the fifth flow path, the solution in the fourth flow path flowing to the fifth flow path through the dilute solution transmission line; anda concentrated solution return line connected to the fourth flow path and the fifth flow path, the solution in the fifth flow path flowing to the fourth flow path through the concentrated solution return line after giving out partial liquid during the distillation process in the fifth flow path; anda liquid return line connected to the first flow path, the second flow path, the third flow path and the fifth flow path, the liquid from the second flow path and the liquid condensed from the fifth flow path being directed to the first flow path and the third flow path. 16. The heat exchange circulation system according to claim 15, wherein the second heat exchanger is a plate type heat exchanger for the heat exchange among the second flow path, the fifth flow path and the heat dissipating pipe. 17. The heat exchange circulation system according to claim 16, wherein the second heat exchanger is composed of multiple separated plates stacked together to provide a plurality of heat exchange regions, one among every four heat exchange regions that is adjacent to the heat exchange regions where a condensed liquid from the solution locates, forms the heat dissipating pipe, two among every four heat exchange regions that are adjacent to each other with one of the heat exchange regions having the solution and the other heat exchange region receiving the condensed liquid from the solution, form the fifth flow path, and one of every four heat exchange regions that is adjacent to the heat exchange regions where the solution is, forms the second flow path.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (8)
Ostersetzer Shlomo (Ramat Chen ILX) Lior David (Herzliya ILX), Air conditioning system.
Narayanamurthy, Ramachandran; Parsonnet, Brian; Cook, Donald Thomas, Thermal energy storage and cooling system utilizing multiple refrigerant and cooling loops with a common evaporator coil.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.