The invention relates to an aircraft, in particular to an airplane, having at least one fuel cell, having at least one supply line which connects the fuel cell to a fuel supply, having at least one outlet line by means of which fuel supplied by the supply line and not consumed in the fuel cell is dr
The invention relates to an aircraft, in particular to an airplane, having at least one fuel cell, having at least one supply line which connects the fuel cell to a fuel supply, having at least one outlet line by means of which fuel supplied by the supply line and not consumed in the fuel cell is drained off and having means for the influencing of the fuel flow through the fuel cell as well as having means for the influencing of the fuel flow through the fuel cell, with the means for the influencing of the fuel flow having a pressure regulator located in the at least one supply line and a restrictor member located in the at least one outlet line, with the pressure regulator regulating the pressure of the fuel supply to the operating pressure of the fuel cell and with the restrictor member reducing the flow of the fuel flowing through the outlet line.
대표청구항▼
The invention claimed is: 1. An aircraft, in particular an airplane, having at least one fuel cell (10), at least one supply line (30) which connects the fuel cell (10) to a fuel supply, at least one outlet line (50) by which fuel supplied by the supply line (30) and not consumed in the fuel cell (
The invention claimed is: 1. An aircraft, in particular an airplane, having at least one fuel cell (10), at least one supply line (30) which connects the fuel cell (10) to a fuel supply, at least one outlet line (50) by which fuel supplied by the supply line (30) and not consumed in the fuel cell (10) is drained off, and means for influencing fuel flow through the fuel cell (10), wherein the means for the influencing of the fuel flow have the combination of a pressure regulator (34) located in the at least one supply line (30) upstream of said fuel cell (10) and a restrictor member (52) located in the at least one outlet line (50) downstream of said fuel cell (10), the pressure regulator (34) is structured and arranged to reduce pressure of the fuel supply to operating pressure of the fuel cell (10), the restrictor member (52) is structured and arranged to restrict and thereby reduce flow of the fuel flowing through the outlet line (50), a flow regulator is omitted, the fuel cell (10) is operated at constant pressure, and the aircraft has a ram air duct in which a pressure level dependent upon altitude prevails and the outlet line (10) opens into the ram air duct with the restrictor member (52) arranged in the outlet line (50) to ensure hydrogen flow through the fuel cell (10) does not exceed a surge limit and the fuel cell (10) is always supplied with sufficient hydrogen flow at all pressure levels. 2. An aircraft in accordance with claim 1, wherein the fuel supply is a hydrogen tank or a line conducting hydrogen, the supply line leads from the fuel supply to an anode (10′) of the fuel cell (10) and the outlet line (50) leads off from the anode (10′) of the fuel cell (10). 3. An aircraft in accordance with claim 1, wherein the aircraft has a ram air duct and the outlet line opens into the ram air duct. 4. An aircraft in accordance with claim 1, wherein a further supply line (110) is provided which connects a further fuel supply to the fuel cell (10) and a further outlet line (130) is provided by which fuel supplied through the further supply line (110) and not consumed in the fuel cell is drained off. 5. An aircraft in accordance with claim 4, wherein a connection line (140) connecting the further supply line (110) to the further outlet line (130) and a compressor (150) in the connection line (140) are provided, the compressor (150) effecting a circuit guiding in the line system constituted by the further supply line (110), the further outlet line (130) and the connection line (140). 6. An aircraft in accordance with claim 4, wherein a further pressure regulator (114) is provided in the further supply line (110), the further pressure regulator (114) reducing the pressure of the fuel supply to the operating pressure of the fuel cell (10). 7. An aircraft in accordance with claim 4, wherein the further fuel supply is a tank containing oxygen or air or a line conducting oxygen or air, the further supply line (110) leads from the fuel supply to a cathode (10″) of the fuel cell (10) and the further outlet line (130) leads away from the cathode (10″) of the fuel cell (10). 8. An aircraft in accordance with claim 4, wherein one or more water separators (160, 160′) are arranged in the line system constituted by the further supply line (110), the further outlet line (130) and the connection line (140). 9. An aircraft in accordance with claim 1, wherein one or more valves (36, 116), preferably one or more multiport valves (36, 116), are provided in one or both of the supply lines (30, 110) downstream of the pressure regulator (34, 114), which connect the fuel supply to the fuel cell (10) in a first position and the fuel supply to a further line (40, 120) or unit in a second position. 10. An aircraft in accordance with claim 9, wherein the further line (40, 120) is a line bypassing the fuel cell. 11. An aircraft in accordance with claim 1, wherein a cooling device (12) charged with coolant is provided for cooling of the fuel cell (10) which is in communication with a line (200) through which coolant flows and in which, for heating of the fuel, at least one heat exchanger (70, 130) is arranged through which fuel flows and through which a flow takes place upstream of the fuel cell (10) on the fuel side and downstream of the fuel cell (10) on the coolant side. 12. An aircraft in accordance with claim 1, wherein the fuel cell (10) is a PEM cell. 13. An aircraft in accordance with claim 1, wherein the restrictor element (52) is structured and arranged to prevent the flow from exceeding a surge limit with respect to maximum flow. 14. An aircraft in accordance with claim 1, wherein said pressure regulator (34) is structured and arranged to reduce the pressure of the fuel supply in two stages. 15. The aircraft of claim 1, wherein said restrictor member (52) is a restrictor. 16. The aircraft of claim 3, wherein said restrictor member (52) is a restrictor.
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이 특허에 인용된 특허 (9)
Ewan James M. (Palm Beach Gardens FL) Misiasxek Steven M. (Tequesta FL) Alessi ; Jr. Donald P. (Lake Park FL), Electrochemical load management system for transportation applications.
Kelley Ronald J. ; Pratt Steven D. ; Landreth Bobby Dean ; Pennisi Robert W. ; Muthuswamy Sivakumar ; Urbish Glenn F., Portable fuel cell power supply.
Gardner Frederick J. (Derby GB2) Day Michael J. (Derby GB2) Brandon Nigel P. (Leicestershire GB2) Brownell John B. (Derbyshire GB2), Solid oxide fuel cell stack.
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