High temperature fuel cell system with integrated heat exchanger network
First Claim
Patent Images
1. A fuel cell system, comprising:
- a fuel cell stack;
a heat transfer device adapted to transfer heat from a cathode exhaust stream of the fuel cell stack to water to be provided to a fuel inlet stream;
an air preheater which is adapted to preheat an air inlet stream using heat from an anode exhaust stream, wherein the anode exhaust stream is maintained separate from the cathode exhaust stream to preheat the air inlet stream; and
a cathode recuperator heat exchanger configured to transfer heat from the cathode exhaust stream to the air inlet stream, while the cathode exhaust stream is separate from the anode exhaust stream;
wherein the cathode recuperator has a size that is small enough such that the cathode recuperator heat exchanger is adapted to provide the cathode exhaust stream exiting the cathode recuperator heat exchanger at a temperature of at least 200°
C.;
wherein the cathode recuperator heat exchanger is operatively connected downstream from the air preheater.
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Abstract
A fuel cell system (1) is provided and includes a fuel cell stack (3) and a heat transfer device (5) adapted to transfer heat from a cathode exhaust stream of the fuel cell stack (3) to water to be provided to a fuel inlet stream.
121 Citations
14 Claims
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1. A fuel cell system, comprising:
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a fuel cell stack; a heat transfer device adapted to transfer heat from a cathode exhaust stream of the fuel cell stack to water to be provided to a fuel inlet stream; an air preheater which is adapted to preheat an air inlet stream using heat from an anode exhaust stream, wherein the anode exhaust stream is maintained separate from the cathode exhaust stream to preheat the air inlet stream; and a cathode recuperator heat exchanger configured to transfer heat from the cathode exhaust stream to the air inlet stream, while the cathode exhaust stream is separate from the anode exhaust stream; wherein the cathode recuperator has a size that is small enough such that the cathode recuperator heat exchanger is adapted to provide the cathode exhaust stream exiting the cathode recuperator heat exchanger at a temperature of at least 200°
C.;wherein the cathode recuperator heat exchanger is operatively connected downstream from the air preheater. - View Dependent Claims (2, 3)
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4. A fuel cell system, comprising:
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a fuel cell stack; a first means for evaporating water to steam using heat from a fuel cell stack cathode exhaust stream, wherein heat is not transferred from a fuel cell stack anode exhaust stream to evaporate the water to steam; a second means for providing the steam into a fuel inlet stream being directed to the fuel cell stack; a third means for heating an air inlet stream using the cathode exhaust stream upstream of evaporating the water and for providing an exiting cathode exhaust stream having a temperature of at least 200°
C. after heating the air inlet stream; anda fourth means for heating the air inlet stream using a fuel cell stack anode exhaust stream prior to heating the air inlet stream using the cathode exhaust stream. - View Dependent Claims (5, 6)
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7. A method of operating a fuel cell system, comprising:
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operating a fuel cell stack to generate electricity; evaporating water to steam using heat from a fuel cell stack cathode exhaust stream; providing the steam into a fuel inlet stream being directed to the fuel cell stack; heating an air inlet stream using the cathode exhaust stream upstream of evaporating the water; and heating the air inlet stream using a fuel cell stack anode exhaust stream prior to heating the air inlet stream using the cathode exhaust stream, wherein the anode exhaust stream is maintained separate from the cathode exhaust stream to heat the air inlet stream. - View Dependent Claims (8, 9, 10)
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11. A fuel cell system, comprising:
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a fuel cell stack; a heat transfer device adapted to transfer heat from a cathode exhaust stream of the fuel cell stack to water to be provided to a fuel inlet stream; an air preheater which is adapted to preheat an air inlet stream using heat from an anode exhaust stream while the anode exhaust stream is separate from the cathode exhaust stream; and a cathode recuperator heat exchanger which is adapted to transfer heat from the cathode exhaust stream while the cathode exhaust stream is separate from the anode exhaust stream to the air inlet stream, the cathode recuperator heat exchanger operatively connected upstream from the heat transfer device with respect to the cathode exhaust stream and downstream from the air preheater with respect to the air inlet stream, and sized to provide the cathode exhaust stream to the heat transfer device at a sufficiently high temperature to allow for evaporation of the water in the heat transfer device; wherein the cathode recuperator heat exchanger is sized to provide the cathode exhaust stream exiting the cathode recuperator heat exchanger at a temperature of at least 200°
C. - View Dependent Claims (12, 13, 14)
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Specification