Compressor system with a freewheeling expander
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/06
H01M-008/04
H01M-002/38
H01M-002/40
H01M-008/24
출원번호
US-0708935
(2010-02-19)
등록번호
US-8795907
(2014-08-05)
발명자
/ 주소
Becker, Marc
Fontaine, Remy
Tighe, Thomas W.
출원인 / 주소
GM Global Technology Operations LLC
대리인 / 주소
Fraser Clemens Martin & Miller LLC
인용정보
피인용 횟수 :
1인용 특허 :
4
초록▼
A fuel cell system is disclosed that employs an expander for recovering mechanical energy from a cathode exhaust fluid produced by the fuel cell system to generate torque. The expander is coupled to a shaft of a compressor with a freewheel mechanism, wherein the freewheel mechanism transfers the tor
A fuel cell system is disclosed that employs an expander for recovering mechanical energy from a cathode exhaust fluid produced by the fuel cell system to generate torque. The expander is coupled to a shaft of a compressor with a freewheel mechanism, wherein the freewheel mechanism transfers the torque from the expander to the compressor when a rate of rotation of a driveshaft of the expander is greater than the rate of rotation of the shaft of the compressor, and selectively militates against the expander acting as a restrictor to the shaft of the compressor when a rate of rotation of the driveshaft of the expander is substantially equal to or less than a rate of rotation of the shaft of the compressor.
대표청구항▼
1. A fuel cell system comprising: a fuel cell stack including a cathode having an inlet and an outlet, wherein a first fluid flows through the inlet of the cathode and a second fluid flows through the outlet of the cathode;a compressor for compressing the first fluid, an inlet of the compressor in f
1. A fuel cell system comprising: a fuel cell stack including a cathode having an inlet and an outlet, wherein a first fluid flows through the inlet of the cathode and a second fluid flows through the outlet of the cathode;a compressor for compressing the first fluid, an inlet of the compressor in fluid communication with a source of the first fluid and an outlet of the compressor in fluid communication with the inlet of the cathode;an expander coupled to the compressor, wherein the expander is in fluid communication with the outlet of the cathode to recover mechanical energy from the second fluid and generate torque to power the compressor; andan overrunning clutch coupled to the compressor and the expander for transferring the torque from the expander to the compressor, wherein the overrunning clutch militates against the expander acting as a restrictor to the compressor. 2. The fuel cell system according to claim 1, wherein the expander is coupled to a shaft of the compressor to urge the shaft of the compressor in a first direction when a rate of rotation of a shaft of the expander is greater than a rate of rotation of the shaft of the compressor. 3. The fuel cell system according to claim 1, wherein the overrunning clutch is coupled to a shaft of the expander to militate against a backdriving of the shaft of the expander when a rate of rotation of the shaft of the expander is at least one of substantially equal to and less than a rate of rotation of the shaft of the compressor. 4. The fuel cell system according to claim 1, further comprising a heat exchanger disposed between and in fluid communication with the outlet of the compressor and the inlet of the cathode of the fuel cell stack. 5. The fuel cell system according to claim 4, wherein the heat exchanger is in fluid communication with an inlet of the expander. 6. The fuel cell system according to claim 4, further comprising a humidifier disposed between and in fluid communication with an outlet of the heat exchanger and the inlet of the cathode of the fuel cell stack. 7. The fuel cell system according to claim 6, wherein the humidifier is disposed between and in fluid communication with the outlet of the cathode of the fuel cell stack and an inlet of the heat exchanger. 8. The fuel cell system according to claim 1, further comprising a motor coupled to the compressor to provide power thereto. 9. The fuel cell system according to claim 1, wherein the first fluid is an oxidant. 10. The fuel cell system according to claim 1, wherein the second fluid is a cathode exhaust fluid. 11. A fuel cell system comprising: a fuel cell stack including a cathode having an inlet and an outlet, wherein a first fluid flows through the inlet of the cathode and a second fluid flows through the outlet of the cathode;a compressor for compressing the first fluid, the compressor including a shaft, an inlet, and an outlet, wherein the inlet of the compressor is in fluid communication with a source of the first fluid and the outlet of the compressor is in fluid communication with the inlet of the cathode;an expander coupled to the shaft of the compressor, wherein the expander is in fluid communication with the outlet of the cathode to recover mechanical energy from the second fluid and generate torque to power the compressor; anda freewheel mechanism including a driving race, a driven race disposed in the driving race, and at least one torque transfer element disposed therebetween, the driving race coupled to a shaft of the expander and the driven race coupled to the shaft of the compressor for transferring the torque from the expander to the compressor, wherein the torque transfer element militates against the expander acting as a restrictor to the compressor. 12. The fuel cell system according to claim 11, wherein the expander is coupled to the shaft of the compressor to urge the shaft of the compressor in a first direction when a rate of rotation of the shaft of the expander is greater than a rate of rotation of the shaft of the compressor. 13. The fuel cell system according to claim 11, wherein the freewheel is coupled to the shaft of the expander to militate against a backdriving of the shaft of the expander when a rate of rotation of the shaft of the expander is at least one of substantially equal to and less than a rate of rotation of the shaft of the compressor. 14. The fuel cell system according to claim 11, further comprising a heat exchanger disposed between and in fluid communication with the outlet of the compressor and the inlet of the cathode of the fuel cell stack, wherein the heat exchanger is also in fluid communication with an inlet of the expander. 15. The fuel cell system according to claim 14, further comprising a humidifier disposed between and in fluid communication with an outlet of the heat exchanger and the inlet of the cathode of the fuel cell stack, wherein the humidifier is also in fluid communication with the outlet of the cathode of the fuel cell stack and an inlet of the heat exchanger. 16. The fuel cell system according to claim 11, further comprising a motor coupled to the shaft of the compressor to urge the shaft of the compressor in a first direction and provide power to the compressor. 17. A method of operating a fuel cell system comprising the steps of: providing a fuel cell stack including a cathode having an inlet and an outlet, wherein a first fluid flows through the inlet of the cathode and a second fluid flows through the outlet of the cathode;providing a compressor for compressing the first fluid, an inlet of the compressor in fluid communication with a source of the first fluid and an outlet of the compressor in fluid communication with the inlet of the cathode;providing an expander coupled to the compressor, wherein the expander is in fluid communication with the outlet of the cathode;providing a freewheel mechanism for transferring the torque from the expander to the compressor, wherein the freewheel mechanism militates against the expander acting as a restrictor to the compressor; andcausing the second fluid to flow through the expander to recover mechanical energy therefrom and generate torque to power to the compressor. 18. The method according to claim 17, further comprising the steps of: providing a heat exchanger disposed between and in fluid communication with the outlet of the compressor and the inlet of the cathode of the fuel cell stack;providing a humidifier disposed between and in fluid communication with an outlet of the heat exchanger and the inlet of the cathode of the fuel cell stack; andproviding a motor coupled to the compressor to provide power thereto. 19. The method according to claim 17, wherein the first fluid is an oxidant. 20. The method according to claim 17, wherein the second fluid is a cathode exhaust fluid.
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이 특허에 인용된 특허 (4)
Pechtold,Rainer, Fuel cell system with compressor and also a method for operating such a fuel cell system.
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