System and method for loading a combined cycle power plant
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-001/00
F02C-007/057
F02C-006/18
F02C-009/20
출원번호
US-0798044
(2013-03-12)
등록번호
US-9523313
(2016-12-20)
발명자
/ 주소
Kim, Kihyung
Gulen, Seyfettin Can
Thompson, Brett Matthew
출원인 / 주소
General Electric Company
대리인 / 주소
Fletcher Yoder, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
A system including a gas turbine system configured to transition between a first load state and a second load state, wherein the gas turbine system comprises an airflow control module configured to adjust an airflow through the gas turbine system between a minimum airflow condition and a maximum air
A system including a gas turbine system configured to transition between a first load state and a second load state, wherein the gas turbine system comprises an airflow control module configured to adjust an airflow through the gas turbine system between a minimum airflow condition and a maximum airflow condition, and a controller configured to control the gas turbine system to operate with a load path between a first load path corresponding to the minimum airflow condition and a second load path corresponding to the maximum airflow condition, wherein the controller is configured to control the gas turbine system to transition between the first load state and the second load state using the load path between the first and second load paths.
대표청구항▼
1. A system comprising: a combined cycle system, comprising: a gas turbine system configured to transition between a first load state and a second load state, wherein the gas turbine system comprises an airflow control module configured to adjust an airflow through the gas turbine system between a m
1. A system comprising: a combined cycle system, comprising: a gas turbine system configured to transition between a first load state and a second load state, wherein the gas turbine system comprises an airflow control module configured to adjust an airflow through the gas turbine system between a minimum airflow condition and a maximum airflow condition, wherein the airflow control module comprises an inlet restriction, an inlet guide vane, or a combination thereof;a heat recovery steam generator (HRSG) in fluid communication with the gas turbine system, wherein the HRSG is configured to generate a steam using heat from an exhaust gas from the gas turbine system;a stream turbine system in fluid communication with the gas turbine system and the heat recovery steam generator, wherein the steam turbine system is driven by the steam to drive a load; anda controller configured to control the airflow control module and the gas turbine system to operate with a load path between a first load path corresponding to the minimum airflow condition and a second load path corresponding to the maximum airflow condition, wherein the load path comprises one or more operational constraints related to components of the gas turbine system, and wherein the controller is configured to control the gas turbine system to transition between the first load state and the second load state using the load path between the first and second load paths. 2. The system of claim 1 wherein the controller is configured to operate the gas turbine system along the load path to increase a temperature of the exhaust gas from a starting temperature to a target temperature, wherein the target temperature is less than a maximum temperature of the exhaust gas for the gas turbine system. 3. The system of claim 2, wherein the target temperature is based on one or more temperature thresholds of the steam turbine system. 4. The system of claim 2, wherein the target temperature is based on one or more temperature differentials between a steam temperature of the steam and a metal temperature of one or more components of the steam turbine system. 5. The system of claim 2, wherein the controller is configured to increase the load of the gas turbine system along the load path from the first load state to a threshold load, wherein the first load state is a minimum load, and wherein the threshold load is greater than the first load state and less than the second load state, and wherein the second load state is a maximum load or a dispatch power load. 6. The system of claim 5, wherein the controller is configured to simultaneously increase the temperature to the target temperature and the load of the gas turbine system to the threshold load, or sequentially increase the temperature to the target temperature and the load of the gas turbine system to the threshold load. 7. The system of claim 6, wherein the controller is configured to increase the temperature from the target temperature to a higher temperature while substantially maintaining the load of the gas turbine system at the threshold load. 8. The system of claim 6, wherein the threshold load maintains a minimum emissions compliance load, an HRSG limitation, or a balance of plant system limitation. 9. The system of claim 5, wherein the controller is configured to increase the airflow through the airflow control module to increase the load of the gas turbine system to the threshold load. 10. The system of claim 1, wherein the one or more operational constraints related to components comprise a minimum emission compliance load constraint, a heat recovery steam generator constraint, a balance of plant constraint, or a combination thereof. 11. A non-transitory machine readable medium, comprising: instructions for controlling a gas turbine system to transition from a first load state to a second load state along a load path between a first load path corresponding to a minimum airflow condition and a second load path corresponding to a maximum airflow condition, wherein the load path comprises one or more operational constraints related to components of the gas turbine system, and wherein the instructions for controlling the gas turbine system comprise instructions for controlling an airflow control module to adjust an airflow through the gas turbine system between the minimum airflow condition and the maximum airflow condition, wherein the airflow control module comprises an inlet restriction, an inlet guide vane, or a combination thereof. 12. The medium of claim 11, wherein the instructions for controlling comprise: instructions for increasing a temperature of an exhaust gas of the gas turbine system to a target temperature less than a maximum temperature for the gas turbine system;instructions for increasing a load of the gas turbine system to a threshold load, wherein the threshold load is greater than the first load state and less than the second load state of the gas turbine system, wherein the first load state is a minimum load, and wherein the second load state is a maximum load or a dispatch power load; andinstructions for substantially maintaining the temperature of the exhaust gas at the target temperature while substantially maintaining the load of the gas turbine system at the threshold load. 13. The medium of claim 12, wherein the instructions for controlling comprise: instructions for increasing the temperature of the exhaust gas from the target temperature to a higher temperature while substantially maintaining the load of the gas turbine system at the threshold load; andinstructions for increasing the load of the gas turbine system from the threshold load to the second load state after increasing the temperature from the target temperature to the higher temperature. 14. The medium of claim 13, wherein the instructions for controlling comprise: instructions for controlling generation of a steam via a heat recovery steam generator (HRSG) using the exhaust gas from the gas turbine system;instructions for controlling a steam temperature of the steam while controlling the gas turbine system along the load path; andinstructions for increasing the steam temperature of the steam while increasing the temperature of the exhaust gas in a controlled manner at least partially based on one or more temperature thresholds of a steam turbine system receiving the steam, or one or more temperature differentials between the steam temperature of the steam and a metal temperature of one or more components of the steam turbine system, or a combination thereof. 15. The medium of claim 11, wherein the one or more operational constraints related to components comprise a minimum emission compliance load constraint, a heat recovery steam generator constraint, a balance of plant constraint, or a combination thereof. 16. A method, comprising: controlling a gas turbine system via a controller to transition from a first load state to a second load state along a load path between a first load path corresponding to a minimum airflow condition and a second load path corresponding to a maximum airflow condition, wherein the load path comprises one or more operational constraints related to components of the gas turbine system, and wherein controlling the gas turbine system comprises controlling an airflow control module to adjust an airflow through the gas turbine system between the minimum airflow condition and the maximum airflow condition, wherein the airflow control module comprises an inlet restriction, an inlet guide vane, or a combination thereof. 17. The method of claim 16, wherein controlling comprises: increasing a temperature of an exhaust gas of the gas turbine system to a target temperature less than a maximum temperature for the gas turbine system;increasing a load of the gas turbine system to a threshold load, wherein the threshold load is greater than the first load state and less than the second load state of the gas turbine system, and wherein the first load state is a minimum load and the second load state is a maximum load or a dispatch power load; andsubstantially maintaining the temperature of the exhaust gas at the target temperature while substantially maintaining the load at the threshold load. 18. The method of claim 17, wherein controlling comprises increasing the temperature of the exhaust gas from the target temperature to a higher temperature while substantially maintaining the load at the threshold load. 19. The method of claim 18, wherein controlling comprises: controlling generation of a steam via a heat recovery steam generator (HRSG) using the exhaust gas from the gas turbine system;controlling a steam temperature of the steam while controlling the gas turbine system along the load path; andincreasing the steam temperature of the steam while increasing the temperature of the exhaust gas in a controlled manner at least partially based on one or more temperature thresholds of a steam turbine system receiving the steam, or one or more temperature differentials between the steam temperature of the steam and a metal temperature of one or more components of the steam turbine system, or a combination thereof. 20. The method of claim 18, comprising increasing the load of the gas turbine system from the threshold load to the second load state after increasing the temperature from the target temperature to the higher temperature. 21. The method of claim 16, wherein the one or more operational constraints related to components comprise a minimum emission compliance load constraint, a heat recovery steam generator constraint, a balance of plant constraint, or a combination thereof.
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이 특허에 인용된 특허 (11)
Uram Robert (East Pittsburgh PA), Accurate, stable and highly responsive gas turbine startup speed control with fixed time acceleration especially useful.
Kiscaden Roy W. (Springfield PA) Martz Lyle F. (Verona PA) Uram Robert (East Pittsburgh PA), Combined cycle electric power plant with coordinated plural feedback turbine control.
Philip L. Andrew ; Chung-hei Yeung ; Joseph A. Cotroneo ; John David Stampfli, Method of air-flow measurement and active operating limit line management for compressor surge avoidance.
Lee Daniel T. (Clifton Park NY) Tomlinson Leroy O. (Schenectady NY), Method of effecting start-up of a cold steam turbine system in a combined cycle plant.
Tomlinson, Leroy Omar; Jones, Charles Michael; Smith, Gordon Raymond; Steffen, Mark Joseph; Martindale, Bruce Charles; Kazanas, Marc Trent; Murphy, Paul Ronan; Ohson, Gurbaksh Singh; Shemo, Steven David; Fung, Eric YuHang, Methods and apparatus for starting up combined cycle power systems.
Myers, Geoffrey David; Davis, Jr., Lewis Berkley; Healy, Timothy Andrew; Citeno, Jospeh, Methods and systems for controlling a combustor in turbine engines.
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