IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0078266
(2002-02-20)
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우선권정보 |
DE-0007875 (2001-02-20) |
발명자
/ 주소 |
- Derflinger, Monika
- Haas, Isabel
- Walz, Hans-Frieder
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출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
2 |
초록
▼
A system is used for cooling a fuel cell arrangement, particularly a fuel cell arrangement with a gas generating system in a motor vehicle. A coolant circuit for the system is connected to a cooler, a coolant delivery device, a fuel cell and at least another component to be cooled. The coolant circu
A system is used for cooling a fuel cell arrangement, particularly a fuel cell arrangement with a gas generating system in a motor vehicle. A coolant circuit for the system is connected to a cooler, a coolant delivery device, a fuel cell and at least another component to be cooled. The coolant circuit has at least two valve devices which are each assigned to the fuel cell and the at least another component to be cooled. By means of the valve devices, a flow rate of the coolant through the fuel cell or the another component to be cooled can be influenced as a function of the temperature in the region associated with the fuel cell or the another component.
대표청구항
▼
1. A system for cooling a fuel cell arrangement that includes a fuel cell and at least one additional component that is to be cooled, the system comprising:a coolant circuit for circulating in a coolant, the coolant circuit including at least one cooler, at least one coolant delivery device, and at
1. A system for cooling a fuel cell arrangement that includes a fuel cell and at least one additional component that is to be cooled, the system comprising:a coolant circuit for circulating in a coolant, the coolant circuit including at least one cooler, at least one coolant delivery device, and at least two valve devices that are assigned to the fuel cell and the additional component, respectively, wherein a flow rate of the coolant through the fuel cell is influenced by one of the valves as a function of the temperature in a region assigned to the fuel cell, and a flow rate of coolant through the additional component is influenced by the other valve as a function of the temperature in a region assigned to the additional component; wherein the coolant circuit has a bypass line around the cooler and another bypass line around at least one of the fuel cell and the additional component, the valve devices being arranged such that they influence the ratio of the rates of flow through the cooler and the bypass line around the cooler and the ratio of the rates of flow through the at least one of the fuel cell and the additional component and the bypass line around the at least one of the fuel cell and the additional component; and wherein a sensor for sensing the temperature, as a function of which the valve device assigned to the bypass line around the cooler can be operated, is arrange in the flow direction of the coolant behind the flowing together of the volume flows of the coolant coming from the cooler and from the bypass line around the cooler. 2. The system according to claim 1 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component.3. The system according to claim 2 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.4. The system according the claim 1 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.5. The system according to claim 4 wherein the further components to be cooled which correspond directly with the fuel cell are constructed as the cooling of the combustion gas flowing into the fuel cell.6. The system according to claim 1 wherein the additional components to be cooled are the electric and mechanical auxiliary aggregates of the fuel cell arrangement.7. The system according to claim 1 wherein the valve devices are constructed as proportional valves.8. The system according to claim 7 wherein the proportional valves can be operated electrically.9. The system according to claim 1 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component.10. The system according to claim 1 wherein a bypass line is constructed as a bypass around the fuel cell and further components go be cooled which directly corresponds with the fuel cell.11. A system for cooling a fuel cell arrangement that includes a fuel cell and at least one additional component that is to be cooled, the system comprising:a coolant circuit for circulating in a coolant, the coolant circuit including at least one cooler, at least one coolant delivery device, and at least two valve devices that are assigned to the fuel cell and the additional component, respectively, wherein a flow rate of the coolant through the fuel cell is influenced by one of the valves as a function of the temperature in a region assigned to the fuel cell, and a flow rate of coolant through the additional component is influenced by the other valve as a function of the temperature in a region assigned to the additional component; wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component. 12. The system of claim 11 wherein the coolant circuit has a bypass line around the cooler and another bypass line around at least one of the fuel cell and the additional component, the valve devices being arranged such that they influence the ratio of the rates of flow through the cooler and the bypass line around the cooler and the ratio of the rates of flow through the at least one of the fuel cell and the additional component and the bypass line around the at least one of the fuel cell and the additional component.13. The system of claim 12 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to the bypass line around the cooler can be operated, is arrange in the flow direction of the coolant behind the flowing together of the volume flows of the coolant coming from the cooler and from the bypass line around the cooler.14. The system according to claim 13 wherein a bypass line is constructed as a bypass around the fuel cell and further components go be cooled which directly corresponds with the fuel cell.15. The system according to claim 11 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component.16. The system according to claim 15 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.17. The system according the claim 11 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.18. The system according to claim 17 wherein the further components to be cooled which correspond directly with the fuel cell are constructed as the cooling of the combustion gas flowing into the fuel cell.19. The system according to claim 11 wherein the additional components to be cooled are the electric and mechanical auxiliary aggregates of the fuel cell arrangement.20. The system according to claim 11 wherein the valve devices are constructed as proportional valves.21. The system according to claim 20 wherein the proportional valves can be operated electrically.22. A system for cooling a fuel cell arrangement that includes a fuel cell and at least one additional component that is to be cooled, the system comprising:a coolant circuit for circulating in a coolant, the coolant circuit including at least one cooler, at least one coolant delivery device, and at least two valve devices that are assigned to the fuel cell and the additional component, respectively, wherein a flow rate of the coolant through the fuel cell is influenced by one of the valves as a function of the temperature in a region assigned to the fuel cell, and a flow rate of coolant through the additional component is influenced by the other valve as a function of the temperature in a region assigned to the additional component; and wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component. 23. The system of claim 22 wherein the coolant circuit has a bypass line around the cooler and another bypass line around at least one of the fuel cell and the additional component, the valve devices being arranged such that they influence the ratio of the rates of flow through the cooler and the bypass line around the cooler and the ratio of the rates of flow through the at least one of the fuel cell and the additional component and the bypass line around the at least one of the fuel cell and the additional component.24. The system of claim 23 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to the bypass line around the cooler can be operated, is arrange in the flow direction of the coolant behind the flowing together of the volume flows of the coolant coming from the cooler and from the bypass line around the cooler.25. The system according to claim 24 wherein a bypass line is constructed as a bypass around the fuel cell and further components go be cooled which directly corresponds with the fuel cell.26. The system according the claim 23 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.27. The system according to claim 26 wherein the further components to be cooled which correspond directly with the fuel cell are constructed as the cooling of the combustion gas flowing into the fuel cell.28. The system according to claim 23 wherein a sensor for sensing the temperature, as a function of which the valve device assigned to a bypass line around the fuel cell and the additional component can be operated, is arranged in the flow direction of the coolant behind the fuel cell and the additional component.29. The system according to claim 22 wherein the additional components to be cooled are the electric and mechanical auxiliary aggregates of the fuel cell arrangement.30. The system according to claim 22 wherein the valve devices are constructed as proportional valves.31. The system according to claim 30 wherein the proportional valves can be operated electrically.32. The system according to claim 22 wherein a bypass line is constructed as a bypass around the fuel cell and further components to be cooled which directly corresponds with the fuel cell.33. A fuel cell cooling system comprising:a fuel cell; an additional component; a coolant circuit including a coolant delivery device, the coolant circuit connecting the fuel cell and the additional component in parallel to the coolant delivery device, the coolant circuit further including a cooler and first and second valve devices that are operatively associated with the cooler and the fuel cell, respectively, wherein the first valve device is configured to control the amount of coolant flowing through the cooler, and the second valve device is configured to control the amount of coolant flowing through the fuel cell, and wherein the coolant circuit has a first bypass line arranged in parallel with the cooler and a second bypass line arranged in parallel with the fuel cell, the first valve device adjusting the ratio of a rate of flow through the cooler and a rate of flow through the first bypass line, and the second valve device adjusting the ratio of a rate of flow through the fuel cell and a rate of flow through the second bypass line; and a first sensor for sensing the temperature of a combination of a coolant flow exiting the cooler and a coolant flow exiting the first bypass line, the first valve device adjusting the ratio of a rate of flow through the cooler and a rate of flow through the first bypass line on the basis of the temperature sensed by the first sensor. 34. A fuel cell cooling system comprising:a fuel cell; an additional component; a coolant circuit including a coolant delivery device, the coolant circuit connecting the fuel cell and the additional component in parallel to the coolant delivery device, the coolant circuit further including a cooler and first and second valve devices that are operatively associated with the cooler and the fuel cell, respectively, wherein the first valve device is configured to control the amount of coolant flowing through the cooler, and the second valve device is configured to control the amount of coolant flowing through the fuel cell, and wherein the coolant circuit has a first bypass line arranged in parallel with the cooler and a second bypass line arranged in parallel with the fuel cell, the first valve device adjusting the ratio of a rate of flow through the cooler and a rate of flow through the first bypass line, and the second valve device adjusting the ratio of a rate of flow through the fuel cell and a rate of flow through the second bypass line; and a second sensor for sensing the temperature of a coolant flow exiting the fuel cell, the second valve device adjusting the ratio of a rate of flow through the fuel cell and a rate of flow through the second bypass line on the basis of the temperature sensed by the second sensor. 35. A method of cooling a fuel cell and an additional component by means of a coolant circuit including a coolant delivery device and a cooler, the coolant circuit connecting the fuel cell and the additional component in parallel to the coolant delivery device, the method comprising:controlling the amount of coolant flowing through the cooler; controlling the amount of coolant flowing the fuel cell, wherein controlling the amount of coolant flowing through the cooler includes controlling the ratio of a rate of flow through the cooler and a rate of flow through a first bypass line arranged in parallel with the cooler, and controlling the amount of coolant flowing through the fuel cell includes controlling the ratio of a rate of flow through the fuel cell and a rate of flow through a second bypass line arranged in parallel with the fuel cell; and sensing the temperature of a combination of a coolant flow exiting the cooler and a coolant flow exiting the first bypass line, and adjusting the ratio of a rate of flow through the cooler and a rate of flow through the first bypass line on the basis of the temperature. 36. A method of cooling a fuel cell and an additional component by means of a coolant circuit including a coolant delivery device and a cooler, the coolant circuit connecting the fuel cell and the additional component in parallel to the coolant delivery device, the method comprising:controlling the amount of coolant flowing through the cooler; controlling the amount of coolant flowing the fuel cell, wherein controlling the amount of coolant flowing through the cooler includes controlling the ratio of a rate of flow through the cooler and a rate of flow through a first bypass line arranged in parallel with the cooler, and controlling the amount of coolant flowing through the fuel cell includes controlling the ratio of a rate of flow through the fuel cell and a rate of flow through a second bypass line arranged in parallel with the fuel cell; and sensing the temperature of a coolant flow exiting the fuel cell, and adjusting the ratio of a rate of flow through the fuel cell and a rate of flow through the second bypass line on the basis of the temperature.
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