System for controlling a cooling flow from a compressor section of a gas turbine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-009/18
F02C-007/12
F01D-017/14
F01D-025/12
G05D-023/02
출원번호
US-0708092
(2012-12-07)
등록번호
US-9261022
(2016-02-16)
발명자
/ 주소
Saha, Rajarshi
Donkada, Santhosh
Mazumder, Indrajit
Pemmi, Bhaskar
출원인 / 주소
GENERAL ELECTRIC COMPANY
대리인 / 주소
Dority & Manning, PA
인용정보
피인용 횟수 :
0인용 특허 :
6
초록▼
A system for controlling a flow rate of a compressed cooling medium between a compressor section and a turbine section of a gas turbine includes a flow path that is defined between the compressor section and the turbine section of the gas turbine and a thermally actuated variable flow valve disposed
A system for controlling a flow rate of a compressed cooling medium between a compressor section and a turbine section of a gas turbine includes a flow path that is defined between the compressor section and the turbine section of the gas turbine and a thermally actuated variable flow valve disposed within the flow path. The variable flow valve defines an opening that changes in size based on a temperature of the compressed cooling medium flowing therethrough.
대표청구항▼
1. A system for controlling a flow rate of a compressed cooling medium between a compressor section and a turbine section of a gas turbine engine, the system comprising: a. a flow path defined between the compressor section and the turbine section of the gas turbine engine; andb. a thermally actuate
1. A system for controlling a flow rate of a compressed cooling medium between a compressor section and a turbine section of a gas turbine engine, the system comprising: a. a flow path defined between the compressor section and the turbine section of the gas turbine engine; andb. a thermally actuated variable flow valve in said flow path, said variable flow valve including an inner sleeve surrounded by an annular main body from an upstream end of the inner sleeve to a downstream end of the inner sleeve, the annular main body of the variable flow valve inserted between two adjacent flanges within said flow path, wherein said downstream end of the inner sleeve is configured to change in shape in response to temperature changes, and wherein said downstream end defines an opening that changes in size based on a temperature of the compressed cooling medium flowing therethrough. 2. The system as in claim 1, wherein said inner sleeve is annular and is circumferentially surrounded by said annular main body, said inner sleeve extending at least partially through said main body. 3. The system as in claim 2, wherein said inner sleeve of said variable flow valve defines said opening of said variable flow valve. 4. The system as in claim 2, wherein said inner sleeve of said variable flow valve comprises at least one of a shaped memory alloy, a shaped memory polymer or a bi-metallic material. 5. The system as in claim 2, where said inner sleeve of said variable flow valve defines an annular flow path through said annular main body of said variable flow valve for routing the compressed cooling medium therethrough. 6. The system as in claim 2, wherein said inner sleeve comprises a shaped memory alloy having a martensite configuration and an austenite configuration. 7. The system as in claim 6, wherein said martensite configuration of said inner sleeve corresponds to a first opening size and said austenite configuration corresponds to a second opening size. 8. The system as in claim 7, wherein said first opening size is smaller than said second opening size. 9. The system as in claim 1, wherein said flow path is configured to route the cooling medium from the compressor section outside of the gas turbine engine and into the turbine section of the gas turbine engine. 10. A system for controlling a flow rate of a compressed cooling medium between a compressor section and a turbine section of a gas turbine engine, the system comprising: a. an extraction port of the compressor section;b. an inlet port of the turbine section;c. a flow path defined between said extraction port and said inlet port for routing the compressed cooling medium between the compressor section and the turbine section; andd. a thermally actuated variable flow valve in said flow path between said extraction port and said inlet port, said variable flow valve having an annular main body, the main body of the variable flow valve inserted between two adjacent flanges within said flow path, wherein said variable flow valve defines an opening that changes in size based on a temperature of the cooling medium flowing therethrough, and wherein said variable flow valve further comprises an annular inner sleeve circumferentially surrounded by said annular main body, said inner sleeve extending at least partially through said main body. 11. The system as in claim 10, wherein said inner sleeve of said variable flow valve defines said opening of said variable flow valve. 12. The system as in claim 10, wherein said inner sleeve of said variable flow valve comprises of at least one of a shaped memory alloy, a shaped memory polymer or a bi-metallic material. 13. The system as in claim 10, where said inner sleeve of said variable flow valve defines an annular flow path through the annular main body of said variable flow valve for routing the compressed cooling medium therethrough. 14. The system as in claim 10, wherein the turbine section further includes a cooling circuit defined within the turbine section, said cooling circuit being in fluid communication with said flow path. 15. The system as in claim 14, further comprising a fluid conduit, said fluid conduit at least partially defining said flow path between said extraction port of the compressor and said inlet port of the turbine section, wherein said variable flow valve is coupled to one end of said fluid conduit to control the flow of the compressed cooling medium therethrough. 16. A gas turbine engine comprising: a. a compressor section having a casing and an extraction port that extends through the casing, said extraction port defining a flow path for routing a compressed cooling medium through the casing;b. a combustion section downstream from the compressor section;c. a turbine section downstream from the combustion section, the turbine section having a turbine casing and an inlet port, the turbine casing at least partially defining a cooling circuit within the turbine section, said inlet port defining a flow path through the turbine casing and into said cooling circuit;d. a flow path defined between said extraction port of the compressor section and said inlet port of the turbine easing;e. a first thermally actuated variable flow valve disposed within said flow path between said extraction port and said inlet port, said first variable flow valve defining an opening that changes in size based on a temperature of the compressed cooling medium flowing therethrough; andf. a second thermally actuated variable flow valve disposed within said flow path between said extraction port and said inlet port, said second variable flow valve defining an opening that changes in size based on a temperature of the compressed cooling medium flowing therethrough;wherein said first and second variable flow valves are arranged in parallel within said flow path, and wherein the first and second variable flow valves are trained such that the first variable flow valve opens at a first temperature and the second variable flow valve opens at a second temperature, the first temperature different from the second temperature. 17. The gas turbine engine as in claim 16, wherein the first variable flow valve is configured such that the opening of the first variable flow valve is reduced with a reduction of the temperature of the compressed cooling medium flowing therethrough. 18. The gas turbine engine as in claim 16, wherein the second variable flow valve is configured such that the second variable flow valve maintains a constant opening size when the temperature of the compressed cooling medium flowing therethrough is above a predetermined value. 19. The gas turbine engine as in claim 18, wherein the second variable flow valve is configured such that the opening size of the second variable flow valve increases when the temperature of the compressed cooling medium flowing therethrough decreases below a trigger temperature.
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이 특허에 인용된 특허 (6)
Ian C D Care GB; Roger Ashmead GB, Cooling air flow control device for a gas turbine engine.
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