Power plant including an ejector and steam generating system via turbine extraction
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-009/18
F02C-006/06
F02C-006/18
F02C-003/04
H02K-007/18
F01D-025/30
F02C-006/08
F02C-007/18
출원번호
US-0969079
(2015-12-15)
등록번호
US-10072573
(2018-09-11)
발명자
/ 주소
Klosinski, Joseph Philip
Scipio, Alston Ilford
Ekanayake, Sanji
Mathai, George Vargese
출원인 / 주소
General Electric Company
대리인 / 주소
Dority & Manning, P.A.
인용정보
피인용 횟수 :
0인용 특허 :
17
초록▼
A power plant includes a turbine disposed downstream from a combustor. The turbine includes an extraction port that is in fluid communication with a hot gas path of the turbine and which provides a flow path for a stream of combustion gas to flow out of the turbine. An exhaust duct is disposed downs
A power plant includes a turbine disposed downstream from a combustor. The turbine includes an extraction port that is in fluid communication with a hot gas path of the turbine and which provides a flow path for a stream of combustion gas to flow out of the turbine. An exhaust duct is disposed downstream from the turbine and receives exhaust gas from the turbine. An ejector coupled to the extraction port and to an air supply cools the stream of combustion gas upstream from the exhaust duct. The cooled combustion gas flows into the exhaust duct at a higher temperature than the exhaust gas. The cooled combustion gas mixes with the exhaust gas within the exhaust duct to provide a heated exhaust gas mixture to a heat exchanger disposed downstream from the exhaust duct. The heat exchanger may extract thermal energy from the exhaust gas mixture to produce steam.
대표청구항▼
1. A power plant, comprising: a turbine disposed downstream from a combustor, the turbine including an extraction port in fluid communication with a hot gas path of the turbine, wherein the extraction port provides a flow path for a stream of combustion gas to flow out of the turbine;an exhaust duct
1. A power plant, comprising: a turbine disposed downstream from a combustor, the turbine including an extraction port in fluid communication with a hot gas path of the turbine, wherein the extraction port provides a flow path for a stream of combustion gas to flow out of the turbine;an exhaust duct downstream from an outlet of the turbine, wherein the exhaust duct receives exhaust gas from the turbine outlet; andan ejector having a primary inlet fluidly coupled to the extraction port, a suction inlet fluidly coupled to an air supply and an outlet in fluid communication with the exhaust duct;wherein the ejector cools the stream of combustion gas upstream from the exhaust duct, wherein the cooled combustion gas is at a higher temperature than the exhaust gas, and wherein the cooled combustion gas mixes with the exhaust gas within the exhaust duct to provide a heated exhaust gas mixture to a heat exchanger disposed downstream from the exhaust duct. 2. The power plant as in claim 1, wherein the heat exchanger extracts thermal energy from the exhaust gas mixture to produce steam. 3. The power plant as in claim 1, further comprising a steam turbine disposed downstream from the heat exchanger. 4. The power plant as in claim 1, wherein the turbine comprises an inner casing, an outer casing and an extraction pipe in fluid communication with at least one turbine stage of the turbine, wherein the extraction pipe is in fluid communication with the extraction port. 5. The power plant as in claim 1, further comprising a coolant injection system disposed downstream from the ejector outlet and upstream from the exhaust duct, wherein the coolant injection system injects a coolant into the stream of cooled combustion gas flowing from the ejector outlet. 6. The power plant as in claim 5, wherein the coolant is water. 7. The power plant as in claim 5, wherein the coolant is steam. 8. The power plant as in claim 1, further comprising a controller electronically coupled to a first control valve fluidly connected between the extraction port and the ejector inlet and a second control valve disposed upstream from the suction inlet of the ejector. 9. The power plant as in claim 8, further comprising a temperature monitor electronically coupled to the controller and in thermal communication with the extraction port upstream from the exhaust duct, wherein the controller actuates at least one of the first control valve to increase or decrease the stream of combustion gas from the turbine and the second control valve to increase or decrease mass flow through the suction inlet of the ejector in response to a data signal provided by the temperature monitor to the controller. 10. The power plant as in claim 8, further comprising a steam flow monitor disposed downstream from the heat exchanger and electronically coupled to the controller, wherein the controller actuates at least one of the first control valve and the second control valve in response to a flow output signal provided to the controller by the steam flow monitor. 11. A power plant, comprising: a gas turbine having a compressor, a combustor downstream from the compressor and a turbine downstream from the combustor, the turbine including a first stage in fluid communication with a first extraction port and a second stage in fluid communication with a second extraction port, wherein the first and second extraction ports provide for extraction of a stream of combustion gas out of the turbine downstream from the combustor;an exhaust duct downstream from an outlet of the turbine, wherein the exhaust duct receives exhaust gas from the turbine; andan ejector having a primary inlet fluidly coupled to at least one of the first and second extraction ports, a suction inlet fluidly coupled to an air supply and an outlet fluidly coupled to the exhaust duct;wherein the ejector cools the stream of combustion gas upstream from the exhaust duct, wherein the cooled combustion gas is at a higher temperature than the exhaust gas, and wherein the cooled combustion gas mixes with the exhaust gas within the exhaust duct to provide a heated exhaust gas mixture to a heat exchanger disposed downstream from the exhaust duct. 12. The power plant as in claim 11, wherein the heat exchanger extracts thermal energy from the exhaust gas mixture to produce steam. 13. The power plant as in claim 11, further comprising a steam turbine disposed downstream from the heat exchanger. 14. The power plant as in claim 11, further comprising a coolant injection system disposed downstream from the ejector outlet and upstream from the exhaust duct, wherein the coolant injection system injects a coolant into the stream of cooled combustion gas flowing from the ejector outlet. 15. The power plant as in claim 14, wherein the coolant is water. 16. The power plant as in claim 14, wherein the coolant is steam. 17. The power plant as in claim 11, further comprising a controller electronically coupled to a first control valve fluidly connected between the first extraction port and the ejector inlet, a second control valve fluidly connected between the second extraction port and the ejector inlet and a third control valve disposed upstream from the suction inlet of the ejector. 18. The power plant as in claim 17, further comprising a temperature monitor electronically coupled to the controller and disposed downstream from the ejector outlet, wherein the controller actuates at least one of the first and second control valves to increase or decrease the stream of combustion gas from the turbine and actuates the third control valve to increase or decrease mass flow through the suction inlet of the ejector in response to a data signal provided to the controller by the temperature monitor. 19. The power plant as in claim 17, further comprising a flow monitor disposed downstream from the heat exchanger and electronically coupled to the controller, wherein the controller actuates at least one of the first control valve, the second control valve and the third control valve in response to a flow output signal provided by the flow monitor to the controller.
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이 특허에 인용된 특허 (17)
Bunker Ronald S. (Niskayuna NY), Closed-circuit air cooled turbine.
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