Gas turbine combined cycle optimized for post-combustion CO2 capture
First Claim
1. A method for CO2 capture from flue gas in a gas turbine system including a first gas turbine generator, a heat recovery steam generator and a steam turbine generator heat rejection system, the method comprising:
- diverting an amount of heat recovery steam generator stack gas from a CO2 capture plant; and
mixing the diverted heat recovery steam generator stack gas with an air stream, thereby forming a combined gas stream;
feeding the combined gas stream to a second gas turbine generator;
mixing exhaust gas from the second gas turbine generator with exhaust gas from the first gas turbine generator, thereby forming a combined exhaust gas stream; and
,applying the combined exhaust gas stream to the heat recovery steam generator, wherein a CO2 content of the combined exhaust gas stream is increased by supplementary duct burner firing in the heat recovery steam generator,wherein the temperature of the combined gas stream exiting the supplementary duct burner is maintained at about 1,600°
F. and the heat recovery steam generator is one of a drum-type or a once-through generator,the method further comprising feeding a supplemental air stream to the second gas turbine generator, and cooling the supplemental air stream using an inlet cooler.
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Accused Products
Abstract
In a gas turbine system including a first gas turbine generator, a heat recovery steam generator and a steam turbine generator heat rejection system, the present invention relates to a method for CO2 capture from flue gas in said system, said method including: (a) diverting an amount of heat recovery steam generator flue gas from the CO2 capture plant; and (b) mixing the diverted heat recovery steam generator flue gas with an air stream, forming a combined gas stream, wherein (1) the combined gas stream is fed to a second gas turbine generator; (2) exhaust gas from the second gas turbine generator is mixed with exhaust gas from the first gas turbine generator, forming a combined exhaust gas stream; and (3) the combined exhaust gas stream enters the heat recovery steam generator, with the CO2 content of the combined exhaust gas stream increased through supplementary firing in the heat recovery steam generator.
14 Citations
8 Claims
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1. A method for CO2 capture from flue gas in a gas turbine system including a first gas turbine generator, a heat recovery steam generator and a steam turbine generator heat rejection system, the method comprising:
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diverting an amount of heat recovery steam generator stack gas from a CO2 capture plant; and mixing the diverted heat recovery steam generator stack gas with an air stream, thereby forming a combined gas stream; feeding the combined gas stream to a second gas turbine generator; mixing exhaust gas from the second gas turbine generator with exhaust gas from the first gas turbine generator, thereby forming a combined exhaust gas stream; and
,applying the combined exhaust gas stream to the heat recovery steam generator, wherein a CO2 content of the combined exhaust gas stream is increased by supplementary duct burner firing in the heat recovery steam generator, wherein the temperature of the combined gas stream exiting the supplementary duct burner is maintained at about 1,600°
F. and the heat recovery steam generator is one of a drum-type or a once-through generator,the method further comprising feeding a supplemental air stream to the second gas turbine generator, and cooling the supplemental air stream using an inlet cooler. - View Dependent Claims (2, 3)
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4. A method for CO2 capture from flue gas in a gas turbine system including a first gas turbine generator, a first heat recovery steam generator and a steam turbine generator heat rejection system, said method comprising:
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diverting an amount of heat recovery steam generator stack gas from a CO2 capture plant; and mixing the diverted heat recovery steam generator stack gas with an air stream, thereby forming a combined gas stream, wherein the combined gas stream is fed to a second gas turbine generator; exhaust gas from the second gas turbine generator is fed to a second heat recovery steam generator; steam generated in the second heat recovery steam generator is sent to the CO2 capture plant; exhaust gas from the second heat recovery steam generator is mixed with exhaust gas from the first gas turbine generator, forming a combined exhaust gas stream; and the combined exhaust gas stream enters the first heat recovery steam generator, with a CO2 content of the combined exhaust gas stream increased through supplementary duct burner firing in the first heat recovery steam generator, wherein the temperature of the combined gas stream exiting the supplementary duct burner is maintained at about 1,600°
F.,the method further comprising feeding a supplemental air stream to the second gas turbine generator, and cooling the supplemental air stream using an inlet cooler. - View Dependent Claims (5, 6, 7, 8)
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Specification