Selective pressure kettle boiler for rotor air cooling applications
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-006/18
F02C-006/08
F01K-023/10
F02C-007/18
F22B-001/18
F22B-033/14
F01K-013/02
F02C-006/00
출원번호
US-0087553
(2013-11-22)
등록번호
US-9404395
(2016-08-02)
발명자
/ 주소
Feller, Gerald J.
Copen, John H.
출원인 / 주소
SIEMENS AKTIENGESELLSCHAFT
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
A system for use in a combined cycle power plant including gas and steam turbines includes a single kettle boiler and a valve system. The valve system is operated such that feedwater from a first source passes into the kettle boiler during certain operating conditions, whereas feedwater from a secon
A system for use in a combined cycle power plant including gas and steam turbines includes a single kettle boiler and a valve system. The valve system is operated such that feedwater from a first source passes into the kettle boiler during certain operating conditions, whereas feedwater from a second source passes into the kettle boiler during other operating conditions, wherein the first and second sources have feedwater under different pressures. Rotor cooling air extracted from a compressor section of the gas turbine is cooled with the feedwater in the kettle boiler, wherein at least a portion of the feedwater is evaporated in the kettle boiler by heat transferred to the feedwater from the rotor cooling air to create steam, wherein the valve system is operated to selectively deliver the steam to a first or second steam receiving unit depending on the operating conditions.
대표청구항▼
1. A system for use in a combined cycle power plant including a gas turbine and a steam turbine, the system comprising: a single kettle boiler that selectively receives feedwater from both a first source and a second source, a pressure of the feedwater in the first source being less than a pressure
1. A system for use in a combined cycle power plant including a gas turbine and a steam turbine, the system comprising: a single kettle boiler that selectively receives feedwater from both a first source and a second source, a pressure of the feedwater in the first source being less than a pressure of the feedwater in the second source; anda valve system comprising: first and second inlet valves upstream from the kettle boiler that selectively deliver feedwater from the respective first and second sources to the kettle boiler; andfirst and second outlet valves downstream from the kettle boiler that selectively deliver steam from the kettle boiler to respective first and second steam receiving units;wherein, during a first mode of operation of the combined cycle power plant: the first inlet valve is open and the second inlet valve is closed such that feedwater from the first source is delivered into the kettle boiler but feedwater from the second source is not delivered into the kettle boiler;rotor cooling air extracted from a compressor section of the gas turbine is cooled with the feedwater in the kettle boiler from the first source and delivered back into a turbine section of the gas turbine, wherein at least a portion of the feedwater from the first source is evaporated in the kettle boiler by heat transferred to the feedwater from the rotor cooling air to create first steam; andthe first outlet valve is open and the second outlet valve is closed such that the first steam is delivered from the kettle boiler into the first steam receiving unit but not to the second steam receiving unit; andwherein, during a second mode of operation of the combined cycle power plant: the first inlet valve is closed and the second inlet valve is open such that feedwater from the second source is delivered into the kettle boiler but feedwater from the first source is not delivered into the kettle boiler;rotor cooling air extracted from the compressor section of the gas turbine is cooled with the feedwater in the kettle boiler from the second source and delivered back into the turbine section of the gas turbine, wherein at least a portion of the feedwater from the second source is evaporated in the kettle boiler by heat transferred to the feedwater from the rotor cooling air to create second steam; andthe first outlet valve is closed and the second outlet valve is open such that the second steam is delivered from the kettle boiler into the second steam receiving unit but not to the first steam receiving unit. 2. The system of claim 1, wherein the first and second steam receiving units each comprise a drum that receives the respective first and second steams from the kettle boiler. 3. The system of claim 2, wherein the first and second steam receiving units each further comprise a superheater that provides additional heat to the first and second steam to create superheated steam, wherein the superheated steam is provided to drive the steam turbine to produce power. 4. The system of claim 1, wherein the first mode of operation is less than full load operation and the second mode of operation is full load operation. 5. The system of claim 4, further comprising a controller to operate the valve system to selectively open and close the inlet and outlet valves based on a rotor cooling air temperature setpoint. 6. The system of claim 5, wherein the rotor cooling air temperature setpoint is higher during full load operation than during less than full load operation. 7. The system of claim 1, further comprising at least one injection port in communication with the kettle boiler for providing a fluid into the kettle boiler to effect a change in a pressure within the kettle boiler when the combined cycle power plant is transitioned between the first and second modes of operation. 8. The system of claim 7, wherein the at least one injection port comprises at least one water injection port and at least one steam injection port. 9. The system of claim 8, wherein: water is injected into the kettle boiler by the at least one water injection port to reduce the pressure within the kettle boiler when the combined cycle power plant is transitioned from the second mode of operation to the first mode of operation; andsteam is injected into the kettle boiler by the at least one steam injection port to increase the pressure within the kettle boiler when the combined cycle power plant is transitioned from the first mode of operation to the second mode of operation. 10. The system of claim 1, wherein the single kettle boiler is the sole kettle boiler provided in the combined cycle power plant, such that operation of the combined cycle power plant during the first and second modes of operation is performed without bypassing any additional kettle boilers. 11. A method for operating a combined cycle power plant including a gas turbine and a steam turbine, the method comprising: during a first mode of operation of the combined cycle power plant: delivering feedwater from a first source into a kettle boiler but not delivering feedwater from a second source into the kettle boiler, the first and second sources being in communication with the kettle boiler via first and second inlet valves, wherein a pressure of the feedwater in the first source is less than a pressure of the feedwater in the second source;cooling rotor cooling air extracted from a compressor section of the gas turbine with the feedwater in the kettle boiler from the first source, wherein at least a portion of the feedwater from the first source is evaporated in the kettle boiler by heat transferred to the feedwater from the rotor cooling air to create first steam;delivering the cooled rotor cooling air back into a turbine section of the gas turbine; anddelivering the first steam from the kettle boiler into a first steam receiving unit but not to a second steam receiving unit, wherein the first and second steam receiving units are in communication with the kettle boiler via first and second outlet valves; andduring a second mode of operation of the combined cycle power plant: delivering feedwater from the second source into the kettle boiler but not delivering feedwater from the first source into the kettle boiler;cooling rotor cooling air extracted from the compressor section of the gas turbine by the feedwater in the kettle boiler from the second source, wherein at least a portion of the feedwater from the second source is evaporated in the kettle boiler by heat transferred to the feedwater from the rotor cooling air to create second steam;delivering the cooled rotor cooling air back into the turbine section of the gas turbine; anddelivering the second steam from the kettle boiler into the second steam receiving unit but not to the first steam receiving unit. 12. The method of claim 11, wherein the first and second steam receiving units each include a superheater, and further comprising using the respective superheaters to further heat the first and second steam to create superheated steam. 13. The method of claim 12, further comprising providing the superheated steam to the steam turbine to drive the steam turbine to produce power. 14. The method of claim 11, further comprising selectively operating the inlet and outlet valves based on a rotor cooling air temperature setpoint. 15. The method of claim 14, wherein the first mode of operation is less than full load operation and the second mode of operation is full load operation. 16. The method of claim 15, wherein the rotor cooling air temperature setpoint is higher during full load operation than during less than full load operation. 17. The method of claim 16, further comprising injecting a fluid into the kettle boiler to effect a change in a pressure within the kettle boiler when the combined cycle power plant is transitioned between full and less than full load operation. 18. The method of claim 17, wherein the at least one injection port comprises at least one water injection port and at least one steam injection port. 19. The method of claim 18, further comprising: injecting water into the kettle boiler by the at least one water injection port to reduce the pressure within the kettle boiler when the combined cycle power plant is transitioned from full load operation to less than full load operation; andinjecting steam into the kettle boiler by the at least one steam injection port to increase the pressure within the kettle boiler when the combined cycle power plant is transitioned from less than full load operation to full load operation. 20. The method of claim 15, wherein the single kettle boiler is the sole kettle boiler in the combined cycle power plant, such that operation of the combined cycle power plant during full and less than full load operation is performed without bypassing any additional kettle boilers.
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이 특허에 인용된 특허 (23)
Tomlinson Leroy O. (Schenectady NY) Smith Raub W. (Clifton Park NY) Sholes John E. (Delanson NY), Closed circuit air cooled gas turbine combined cycle.
Martz Lyle F. (Verona PA) Plotnick Richard J. (Cherry Hill NJ), Combined cycle electric power plant having a control system which enables dry steam generator operation during gas turbi.
Long, Christopher Eugene; Holzhauer, Daniel; Punjala, Ratna Manedhar; Saraswat, Rohan; D'Amato, Fernando; Peterson, Susan; Blasini, Luis, System and method for scheduling startup of a combined cycle power generation system.
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