Fuel cell system with improved fuel recirculation
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01M-008/00
H01M-008/04
출원번호
US-0406830
(2006-04-19)
등록번호
US-8092943
(2012-01-10)
발명자
/ 주소
Blaszczyk, Janusz
Fellows, Richard G.
출원인 / 주소
Daimler AG
대리인 / 주소
Patent Central LLC
인용정보
피인용 횟수 :
1인용 특허 :
3
초록▼
A fuel cell system comprising a fuel cell stack, a fuel recirculation line provided with a jet pump and a valve controlled by a control unit based on the anode-cathode pressure differential such that the valve is closed to reduce or stop fuel supply when the anode-cathode pressure differential reach
A fuel cell system comprising a fuel cell stack, a fuel recirculation line provided with a jet pump and a valve controlled by a control unit based on the anode-cathode pressure differential such that the valve is closed to reduce or stop fuel supply when the anode-cathode pressure differential reaches a predetermined value, and opened again to circulate more fuel through the jet pump when the pressure differential is below a predetermined value, to create a pulsed fuel supply that improves the fuel recirculation at low loads and ensures adequate water removal from the anode flow field channels.
대표청구항▼
1. A method for operating a fuel cell system comprising a fuel cell stack comprising a fuel inlet and fuel outlet and an oxidant inlet and oxidant outlet and at least one fuel cell comprising a membrane, an anode and a cathode, the anode fluidly connected to the fuel inlet and fuel outlet, the catho
1. A method for operating a fuel cell system comprising a fuel cell stack comprising a fuel inlet and fuel outlet and an oxidant inlet and oxidant outlet and at least one fuel cell comprising a membrane, an anode and a cathode, the anode fluidly connected to the fuel inlet and fuel outlet, the cathode fluidly connected to the oxidant inlet and oxidant outlet and, a fuel supply line for supplying a fuel to the fuel inlet, a jet pump connected to the fuel supply line, a recirculation line connecting the fuel outlet with the jet pump, a solenoid valve arranged in the fuel supply line between the fuel supply and upstream of the jet pump for opening or closing fuel supply to the stack and capable of being controlled to produce a pulsed fuel supply to the stack, a bypass line connected between the fuel supply and the jet pump, and a control unit for operating the valve in response to an operational parameter indicative of the anode-cathode pressure differential, the method comprising the steps of: determining the load on the fuel cell at which there is the minimum anode pressure differential between the anode inlet and anode outlet to ensure adequate removal of water droplets accumulated in the anode flow field channels, and assigning this load a value L;determining the load currently applied to the fuel cell system;closing the solenoid valve in the fuel supply line to direct fuel to the fuel cell stack via the bypass line, a pressure regulator, the jet pump, and the fuel inlet when it is determined that the load applied to the fuel cell system is above the value L; andcontrolling the solenoid valve to produce a pulsed fuel supply to the stack when the load applied to the fuel cell system is below the value L by(a) initially opening the solenoid valve in the fuel supply line and supplying fuel to the fuel cell via the fuel supply line,(b) completely closing the solenoid valve in the fuel supply line and keeping closed the valve in the bypass line to stop the fuel supply to the stack when the operational parameter indicative of the anode-cathode pressure differential is above a first predetermined threshold value A, and(c) opening the solenoid valve to restart the fuel supply to the stack when the operational parameter indicative of the anode-cathode pressure differential drops below a second predetermined threshold value B, the second predetermined threshold value B being lower than the first predetermined threshold value A. 2. The method of claim 1, wherein the control unit operates the valve in response to an operational parameter indicative of the anode-cathode pressure differential, and controls the solenoid valve to produce a pulsed fuel supply to the stack when the load applied to the fuel cell system is below a value L. 3. A method for operating a fuel cell system comprising a fuel cell stack comprising a fuel inlet and fuel outlet and an oxidant inlet and oxidant outlet and at least one fuel cell comprising a membrane, an anode and a cathode, the anode fluidly connected to the fuel inlet and fuel outlet, the cathode fluidly connected to the oxidant inlet and oxidant outlet and, a first fuel supply line for supplying fuel to the fuel inlet, a jet pump connected to the first fuel supply line, a second fuel supply line for supplying fuel to the fuel inlet, a pulsing jet pump connected to the second line, a recirculation line connecting the fuel outlet with the jet pump and/or pulsing jet pump, a solenoid valve arranged in the first fuel supply line between the fuel supply and upstream of the jet pump for opening or closing fuel supply to the stack, a valve arranged in the second fuel supply line between the fuel supply and upstream of the pulsing jet pump for opening or closing fuel supply to the stack via the second fuel supply line, and a control unit for operating the valves in response to an operational parameter indicative of the anode-cathode pressure differential, the method comprising the steps of: determining the load on the fuel cell at which there is the minimum anode pressure differential between the anode inlet and anode outlet to ensure adequate removal of water droplets accumulated in the anode flow field channels, and assigning this load a value L;determining the load currently applied to the fuel cell system;closing the valve in the second fuel supply line and opening the valve in the first fuel supply line to direct fuel to the fuel cell stack via the first fuel line when it is determined that the load applied to the fuel cell system is above the value L; andcontrolling the valves to direct fuel to pass through the pulsing jet pump to produce a pulsed fuel supply to the stack when the load applied to the fuel cell system is below the value L by(a) initially opening the solenoid valve in the first fuel supply line and supplying fuel to the fuel cell via the first fuel supply line,(b) completely closing the solenoid valve in the first fuel supply line, and keeping closed the valve in the second line, to stop the fuel supply to the stack when the operational parameter indicative of the anode-cathode pressure differential is above a first predetermined threshold value A, and(c) opening the solenoid valve in the first fuel supply line to restart the fuel supply to the stack when the operational parameter indicative of the anode-cathode pressure differential drops below a second predetermined threshold value B, the second predetermined threshold value B being lower than the first predetermined threshold value A.
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이 특허에 인용된 특허 (3)
Yang, Jefferson YS, Anode stream recirculation system for a fuel cell.
Merritt Robert D. (Vancouver CAX) Gorbell Brian N. (North Vancouver CAX), Electrochemical fuel cell system with a regulated vacuum ejector for recirculation of the fluid fuel stream.
Shapiro, Andrew Philip; Perry, Robert James; Alinger, Matthew Joseph; Biederman, Bruce Philip; Hussaini, Irfan Saif; Spiry, Irina, Fuel cell reforming system with carbon dioxide removal.
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