System and method for warming up a steam turbine
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F01K-013/00
F02C-006/18
F01D-019/00
F01D-019/02
F01D-025/10
F02C-009/00
F01K-023/10
F02C-009/28
출원번호
US-0688467
(2012-11-29)
등록번호
US-9903231
(2018-02-27)
발명자
/ 주소
Jordan, Jr., Harold Lamar
Lin, TsungPo
Sholes, Jr., John Edward
출원인 / 주소
General Electric Company
대리인 / 주소
Fletcher Yoder, P.C.
인용정보
피인용 횟수 :
0인용 특허 :
10
초록▼
A system for warming up a steam turbine includes a gas turbine and a controller operably connected to the gas turbine. The controller is programmed to receive a plurality of measured input signals and control the gas turbine to produce an exhaust having a desired energy. A first measured input signa
A system for warming up a steam turbine includes a gas turbine and a controller operably connected to the gas turbine. The controller is programmed to receive a plurality of measured input signals and control the gas turbine to produce an exhaust having a desired energy. A first measured input signal is reflective of a measured operating parameter of the gas turbine and a second measured input signal is reflective of an operating parameter of the steam turbine. A method for warming up a steam turbine includes sending a plurality of measured input signals to a controller, wherein a first measured input signal reflects a measured operating parameter of a gas turbine and a second measured input signal reflects an operating parameter of the steam turbine. The method further includes controlling the gas turbine based on the plurality of measured input signals and producing an exhaust from the gas turbine, wherein the exhaust has a desired energy.
대표청구항▼
1. A method for managing heat-up rate of a steam turbine via a gas turbine, the method comprising: operating the gas turbine at a full speed no load condition;estimating an actual exhaust gas temperature of an exhaust gas flowing from the gas turbine and into a heat exchanger disposed downstream fro
1. A method for managing heat-up rate of a steam turbine via a gas turbine, the method comprising: operating the gas turbine at a full speed no load condition;estimating an actual exhaust gas temperature of an exhaust gas flowing from the gas turbine and into a heat exchanger disposed downstream from the gas turbine based on one or more measured operating parameters of the gas turbine, wherein the heat exchanger utilizes thermal energy from the exhaust gas to generate steam;measuring an initial temperature of the steam turbine;generating a preferred exhaust gas temperature, via a controller having a processor and memory, based upon the initial temperature of the steam turbine;routing the steam from the heat exchanger into a rotor portion of the steam turbine; andcomparing, via the controller, the actual exhaust gas temperature to the preferred exhaust gas temperature, wherein if the actual exhaust gas temperature is not equal to the preferred exhaust gas temperature the method further comprises repositioning a plurality of inlet guide vanes disposed at an inlet of a compressor of the gas turbine until the actual exhaust gas temperature reaches the preferred exhaust gas temperature, and wherein once the exhaust gas temperature reaches the preferred exhaust gas temperature, the method further comprises: estimating an actual exhaust gas flow rate of the exhaust gas flowing from the gas turbine and into the heat exchanger based on the one or more measured operating parameters of the gas turbine;generating a preferred exhaust gas flow rate, via the controller, based upon the initial temperature of the steam turbine; andcomparing, via the controller, the actual exhaust gas flow rate to the preferred exhaust gas flow rate, wherein if the actual exhaust gas flow rate is not equal to the preferred exhaust gas flow rate the method further comprises at least one of repositioning the plurality of inlet guide vanes and adjusting fuel flow to a combustor of the gas turbine until the actual exhaust gas flow rate and the actual exhaust gas temperature reaches the preferred exhaust gas flow rate and the preferred exhaust gas temperature. 2. The method as in claim 1, wherein the method further comprises adjusting the inlet guide vanes and the fuel flow to the combustor so as to maintain a constant exhaust gas energy level while increasing the actual exhaust gas temperature and decreasing the actual exhaust gas flow rate. 3. The method as in claim 1, wherein the initial temperature of the steam turbine is equal to or below seven hundred degrees Fahrenheit. 4. The method as in claim 1, wherein the initial temperature of the steam turbine is equal to or greater than seven hundred degrees Fahrenheit. 5. The method as in claim 1, wherein the steam from the heat exchanger is initially provided at a reference temperature that is less than a normal operating temperature of the steam turbine. 6. The method as in claim 1, wherein the one or more measured operating parameters of the gas turbine comprise a compressor inlet pressure, a compressor inlet flow, a compressor discharge pressure, a compressor discharge temperature, a compressor discharge flow, a generator power output or loss, a fuel flow rate, a fuel composition, an ambient temperature, an ambient humidity, or a combination thereof. 7. The method as in claim 1, wherein operating the gas turbine at a full speed no load condition comprises operating the gas turbine under start-up conditions. 8. The method as in claim 7, wherein the initial temperature of the steam turbine is a temperature of the steam turbine when the gas turbine is operating under the start-up conditions. 9. A system, comprising: a controller having a processor and memory, wherein the controller is configured to: estimate an actual exhaust gas temperature and an actual exhaust gas flow rate of an exhaust gas flowing from a gas turbine and into a heat exchanger disposed downstream from the gas turbine based on one or more measured operating parameters of the gas turbine;measure an initial temperature of the steam turbine;generate a preferred exhaust gas temperature and a preferred exhaust gas flow rate based upon the initial temperature of the steam turbine;compare the actual exhaust gas temperature to the preferred exhaust gas temperature;reposition a plurality of inlet guide vanes disposed at an inlet of a compressor of the gas turbine when the actual exhaust gas temperature is not equal to the preferred exhaust gas temperature until the actual exhaust gas temperature reaches the preferred exhaust gas temperature;compare the actual exhaust gas flow rate to the preferred exhaust gas flow rate; andreposition the plurality of inlet guide vanes, adjust fuel flow to a combustor of the gas turbine, or both when the actual exhaust gas flow rate is not equal to the preferred exhaust gas flow rate until the actual exhaust gas flow rate reaches the preferred exhaust gas flow rate and the actual exhaust gas temperature reaches the preferred exhaust gas temperature. 10. The system as in claim 9, wherein the controller is configured to adjust the inlet guide vanes and the fuel flow to the combustor so as to maintain a constant exhaust gas energy level while increasing the actual exhaust gas temperature and decreasing the actual exhaust gas flow rate. 11. The system as in claim 9, wherein the initial temperature of the steam turbine is equal to or below seven hundred degrees Fahrenheit. 12. The system as in claim 9, wherein the initial temperature of the steam turbine is equal to or greater than seven hundred degrees Fahrenheit. 13. The system as in claim 9, comprising the gas turbine, the steam turbine, and the heat exchanger, wherein the gas turbine comprises a compressor, a combustor, and a turbine. 14. The system as in claim 13, wherein controller is configured to operate the gas turbine under start-up conditions. 15. The system as in claim 14, wherein the initial temperature of the steam turbine is a temperature of the steam turbine when the gas turbine operates under the start-up conditions. 16. The system as in claim 13, wherein the heat exchanger is configured to utilize thermal energy from the exhaust gas to generate steam for the steam turbine. 17. The system as in claim 9, wherein the one or more measured operating parameters of the gas turbine comprise a compressor inlet pressure, a compressor inlet flow, a compressor discharge pressure, a compressor discharge temperature, a compressor discharge flow, a generator power output or loss, a fuel flow rate, a fuel composition, an ambient temperature, an ambient humidity, or a combination thereof. 18. A method for managing heat-up rate of a steam turbine via a gas turbine, comprising: operating the gas turbine at a full speed no load condition;estimating an actual exhaust gas temperature and an actual exhaust gas flow rate of an exhaust gas flowing from the gas turbine and into a heat exchanger disposed downstream from the gas turbine based on one or more measured operating parameters of the gas turbine;measuring an initial temperature of the steam turbine;generating a preferred exhaust gas temperature and a preferred exhaust gas flow rate based upon the initial temperature of the steam turbine;comparing the actual exhaust gas temperature to the preferred exhaust gas temperature and the actual exhaust gas flow rate to the preferred exhaust gas flow rate; andadjusting the actual exhaust gas temperature, the actual exhaust gas flow rate, or both when the actual exhaust gas temperature is not equal to the preferred exhaust gas temperature, the actual exhaust gas flow rate is not equal to the preferred exhaust gas flow rate, or both.
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이 특허에 인용된 특허 (10)
Martens Alan (Berwyn PA) Myers Gerry A. (Swarthmore PA), Adaptive temperature control system for the supply of steam to a steam turbine.
Martz Lyle F. (Verona PA) Smith Jack R. (Pittsburgh PA) Lebonette Francis A. (Swarthmore PA) Putnam Robert A. (Elverson PA) Berman Paul A. (Plymouth Meeting PA), Control apparatus for controlling the operation of a gas turbine inlet guide vane assembly and heat recovery steam gener.
Szepek, Scott William; Sweet, Bryan Edward; Buchalter, Lauren Jeanne; Stats, David Andrew; Mariani, Michael John, Methods and apparatus for operating gas turbine engine systems.
Kure-Jensen Jens (Schenectady NY) Rowen William I. (Schenectady NY) Moore James H. (Schenectady NY), Overspeed anticipation and control system for single shaft combined cycle gas and steam turbine unit.
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