A system comprising a solid oxide fuel cell stack and a gas turbine engine. The stack comprises a plurality of solid oxide fuel cells, each fuel cell comprises an electrolyte, an anode and a cathode. The gas turbine engine comprises a compressor and a turbine with the compressor supplying oxidant to
A system comprising a solid oxide fuel cell stack and a gas turbine engine. The stack comprises a plurality of solid oxide fuel cells, each fuel cell comprises an electrolyte, an anode and a cathode. The gas turbine engine comprises a compressor and a turbine with the compressor supplying oxidant to the cathodes. There are means to supply fuel to the anodes and to supply a portion of the unused oxidant from the solid oxide fuel cells to the cathodes. The means to supply a portion of the unused oxidant comprises a combustor and an ejector with the combustor burning a portion of the unused fuel from the solid oxide fuel cells in the portion of the unused oxidant from the fuel cells and is arranged to supply products of the combustor to the oxidant supplied by the compressor to the cathodes to preheat the oxidant supplied by the compressor.
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The invention claimed is: 1. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine
The invention claimed is: 1. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply at least a portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply at least a portion of the unused oxidant comprising a combustor, the combustor being arranged to burn at least a portion of the unused fuel from the at least one solid oxide fuel cell in the at least a portion of the unused oxidant from the at least one solid oxide fuel cell and being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor. 2. A solid oxide fuel cell system as claimed in claim 1 wherein the solid oxide fuel cell stack comprises a plurality of solid oxide fuel cells. 3. A solid oxide fuel cell system as claimed in claim 1 wherein a second portion of the unused oxidant is supplied to the turbine to drive the turbine. 4. A solid oxide fuel cell system as claimed in claim 1 wherein a heat exchanger is provided to transfer heat from the turbine exhaust gases to the oxidant supplied from the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor. 5. A solid oxide fuel cell system as claimed in claim 1 wherein the combustor is arranged to burn at least a portion of the unused fuel from the at least one solid oxide fuel cell in all of the unused oxidant from the at least one solid oxide fuel cell. 6. A solid oxide fuel cell system as claimed in claim 5 wherein the combustor is arranged to supply a portion of the products of the combustor to the oxidant supplied by the compressor to the cathode of the least one solid oxide fuel cell to preheat the oxidant supplied by the compressor. 7. A solid oxide fuel cell system as claimed in claim 6 wherein a second portion of the products of the combustor is supplied to the turbine to drive the turbine. 8. A solid oxide fuel cell system as claimed in claim 7 wherein a heat exchanger is provided to transfer heat from the products of the combustor to the oxidant supplied from the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor. 9. A solid oxide fuel cell system as claimed in claim 1 additionally comprising means to supply at least a second portion of the unused fuel from the at least one solid oxide fuel cell to the anode, the means to supply a second portion of the unused fuel being arranged to supply the second portion of the unused fuel to the fuel supplied by the means to supply fuel to preheat the fuel supplied by the means to supply fuel. 10. A solid oxide fuel cell system as claimed in claim 9 wherein the means to supply at least a second portion of the unused fuel comprises means to pressurise the unused fuel and means to mix the unused fuel with the fuel. 11. A solid oxide fuel cell system as claimed in claim 10 wherein the means to pressurise the unused fuel and means to mix the unused fuel with the fuel comprises an ejector. 12. A solid oxide fuel cell system as claimed in claim 10 wherein the means to pressurise the unused fuel comprises a pump, a fan, a blower or a turbomachine and the means to mix the unused fuel with the fuel comprises a mixer. 13. A solid oxide fuel cell system as claimed in claim 1 wherein the means to supply at least a portion of the unused oxidant comprises means to pressurise the unused oxidant and means to mix the unused oxidant with the oxidant. 14. A solid oxide fuel cell system as claimed in claim 13 wherein the means to pressurise the unused oxidant and means to mix the unused oxidant with the oxidant comprises an ejector. 15. A solid oxide fuel cell system as claimed in claim 13 wherein the means to pressurise the unused oxidant and means to mix the unused oxidant with the oxidant comprises a pump, a fan, a blower or a turbomachine and a mixer. 16. A solid oxide fuel cell system as claimed in claim 13 wherein the combustor is arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor via the means to pressurise the unused oxidant and means to mix the unused oxidant with the oxidant. 17. A solid oxide fuel cell system as claimed in claim 11 wherein the ejector is a jet pump. 18. A solid oxide fuel cell system as claimed claim 1 wherein the means to supply fuel to the anode of the at least one solid oxide fuel cell comprises a reformer, the reformer is arranged to reform the fuel, a fuel supply is arranged to supply fuel to the reformer and the reformer is arranged to supply reformed fuel to the anode of the at least one solid oxide fuel cell. 19. A solid oxide fuel cell system as claimed in claim 18 wherein the means to supply at least a portion of the unused oxidant is arranged to heat the reformer. 20. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply at least a portion of the unused oxidant from the at least one solid oxide fuel cell to a combustor, means to supply at least a portion of the unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the at least a portion of the unused fuel from the at least one solid oxide fuel cell in the at least a portion of the unused oxidant from the at least one solid oxide fuel cell and being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor. 21. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply a first portion of unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply the first portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell comprising a combustor, means to supply a first portion of unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the first portion of unused fuel in the first portion of unused oxidant, the combustor being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor, means to supply a second portion of the unused oxidant to the turbine to drive the turbine, and means to supply a second portion of the unused fuel from the at least one solid oxide fuel cell to the anode of the at least one solid oxide fuel cell, the means to supply the second portion of unused fuel being arranged to supply the second portion of unused fuel to the fuel supplied by the means to supply fuel to preheat the fuel supplied by the means to supply fuel. 22. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply a first portion of unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply the first portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell comprising a combustor, means to supply a second portion of unused oxidant to the turbine to drive the turbine, means to supply the second portion of the unused oxidant from the at least one solid oxide fuel cell to the turbine comprising the combustor, means to supply a first portion of unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the first portion of the unused fuel in the first portion and the second portion of the unused oxidant, the combustor being arranged to supply a first portion of the products of the combustor the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor, the combustor being arranged to supply a second portion of the products of the combustor to the turbine to drive the turbine, and means to supply a second portion of the unused fuel from the at least one solid oxide fuel cell to the anode of the at least one solid oxide fuel cell, the means to supply the second portion of unused fuel being arranged to supply the second portion of unused fuel to the fuel supplied by the means to supply fuel to preheat the fuel supplied by the means to supply fuel. 23. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply at least a portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply at least a portion of the unused oxidant comprising a combustor, the combustor being arranged to burn at least a portion of the unused fuel from the at least one solid oxide fuel cell in the at least a portion of the unused oxidant from the at least one solid oxide fuel cell and being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the least one solid oxide fuel cell to preheat the oxidant supplied by the compressor such that the products of the combustor and the oxidant supplied by the compressor are combined. 24. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply at least a portion of the unused oxidant from the at least one solid oxide fuel cell to a combustor, means to supply at least a portion of the unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the at least a portion of the unused fuel from the at least one solid oxide fuel cell in the at least a portion of the unused oxidant from the at least one solid oxide fuel cell and being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor such that the products of the combustor and the oxidant supplied by the compressor are combined. 25. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply a first portion of unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply the first portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell comprising a combustor, means to supply a first portion of unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the first portion of unused fuel in the first portion of unused oxidant, the combustor being arranged to supply the products of the combustor to the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor such that the products of the combustor and the oxidant supplied by the compressor are combined, means to supply a second portion of the unused oxidant to the turbine to drive the turbine, and means to supply a second portion of the unused fuel from the at least one solid oxide fuel cell to the anode of the at least one solid oxide fuel cell, the means to supply the second portion of unused fuel being arranged to supply the second portion of unused fuel to the fuel supplied by the means to supply fuel to preheat the fuel supplied by the means to supply fuel. 26. A solid oxide fuel cell system comprising a solid oxide fuel cell stack and a gas turbine engine, the solid oxide fuel cell stack comprising at least one solid oxide fuel cell, each solid oxide fuel cell comprising an electrolyte, an anode and a cathode, the gas turbine engine comprising a compressor and a turbine arranged to drive the compressor, the compressor being arranged to supply oxidant to the cathode of the at least one solid oxide fuel cell, means to supply fuel to the anode of the at least one solid oxide fuel cell, means to supply a first portion of unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell, the means to supply the first portion of the unused oxidant from the at least one solid oxide fuel cell to the cathode of the at least one solid oxide fuel cell comprising a combustor, means to supply a second portion of unused oxidant to the turbine to drive the turbine, means to supply the second portion of the unused oxidant from the at least one solid oxide fuel cell to the turbine comprising the combustor, means to supply a first portion of unused fuel from the at least one solid oxide fuel cell to the combustor, the combustor being arranged to burn the first portion of the unused fuel in the first portion and the second portion of the unused oxidant, the combustor being arranged to supply a first portion of the products of the combustor the oxidant supplied by the compressor to the cathode of the at least one solid oxide fuel cell to preheat the oxidant supplied by the compressor such that the products of the combustor and the oxidant supplied by the compressor are combined, the combustor being arranged to supply a second portion of the products of the combustor to the turbine to drive the turbine, and means to supply a second portion of the unused fuel from the at least one solid oxide fuel cell to the anode of the at least one solid oxide fuel cell, the means to supply the second portion of unused fuel being arranged to supply the second portion of unused fuel to the fuel supplied by the means to supply fuel to preheat the fuel supplied by the means to supply fuel.
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이 특허에 인용된 특허 (5)
Reichner Philip (Plum Borough PA) Doshi Vinod B. (Monroeville PA), Electrochemical cell apparatus having an exterior fuel mixer nozzle.
Domeracki William F. (Lake Mary FL) Lundberg Wayne L. (Pittsburgh PA) Dowdy Thomas E. (Orlando FL) Linder JoAnn M. (Clifton Park NY), Integrated gas turbine solid oxide fuel cell system.
Zafred Paolo R. (Pittsburgh PA) Dederer Jeffrey T. (Valencia PA) Gillett James E. (Greensburg PA) Basel Richard A. (Plub Borough PA) Antenucci Annette B. (Pittsburgh PA), Purge gas protected transportable pressurized fuel cell modules and their operation in a power plant.
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