In some aspects, a steam turbine system includes a high-pressure turbine section; a low-pressure turbine section; a high-pressure control valve operable to provide an adjustable flow of steam into the high-pressure turbine section; a low-pressure control valve operable to provide an adjustable flow
In some aspects, a steam turbine system includes a high-pressure turbine section; a low-pressure turbine section; a high-pressure control valve operable to provide an adjustable flow of steam into the high-pressure turbine section; a low-pressure control valve operable to provide an adjustable flow of steam into the low-pressure turbine section; a controller associated with the high-pressure control valve and the low-pressure control valve. The controller is operable to: receive measurements of three or more different operating points of the steam turbine system, the measurements of each of the three or more different operating points including a position of the high-pressure control valve, a position of the low-pressure control valve, and two of process variables of the steam turbine system; calculate coefficients of a steam performance map of the steam turbine system based on the measurements; and generate the steam performance map based on the coefficients.
대표청구항▼
1. A steam turbine system comprising: a high-pressure turbine section;a low-pressure turbine section;a high-pressure control valve operable to provide an adjustable flow of steam into the high-pressure turbine section;a low-pressure control valve operable to provide an adjustable flow of steam into
1. A steam turbine system comprising: a high-pressure turbine section;a low-pressure turbine section;a high-pressure control valve operable to provide an adjustable flow of steam into the high-pressure turbine section;a low-pressure control valve operable to provide an adjustable flow of steam into the low-pressure turbine section;a controller associated with the high-pressure control valve and the low-pressure control valve, the controller programmed to, during operation of the steam turbine system: change a pressure or flow demand of the steam turbine system;in response to the change of the pressure or flow demand of the steam turbine system, measure a response to the change of the pressure or flow demand of the steam turbine system;change a speed or load demand of the steam turbine system;in response to the change of the speed or load demand of the steam turbine system, measure a response to the change of the speed or load demand of the steam turbine system;wherein the response to the change of the pressure or flow demand of the steam turbine system and the response to the change of the speed or load demand of the steam turbine system comprises measurements of three or more different operating points of the steam turbine system, the measurements of each of the three or more different operating points including a position of the high-pressure control valve, a position of the low-pressure control valve, and two of process variables of the steam turbine system;calculate coefficients of a steam performance map of the steam turbine system based on the measurements of each of the three or more different operating points, the steam performance map representing a first relationship between the position of the high-pressure control valve and the two of the process variables of the steam turbine system, and a second relationship between the position of the low-pressure control valve and the two of the process variables of the steam turbine system; andgenerate the steam performance map of the steam turbine system based on the coefficients. 2. The steam turbine system of claim 1, wherein the controller is further operable to: receive current values of the two of the process variables of the steam turbine system; determine a desired position of the high-pressure control valve and a desired position of the low-pressure control valve based on the coefficients of the steam performance map of the steam turbine system and the current values of the two of the process variables of the steam turbine system;output the desired position of the high-pressure control valve to a first actuator coupled with the high-pressure control valve; andoutput the desired position of the low-pressure control valve to a second actuator coupled with the low-pressure control valve. 3. The steam turbine system of claim 1, further comprising a plurality of sensors for measuring the two of the process variables of the steam turbine system. 4. The steam turbine system of claim 1, wherein the process variables of the steam turbine system comprise two or more of the following: turbine speed, turbine load, extraction or admission pressure or flow, inlet steam pressure or flow, and exhaust steam pressure or flow of the steam turbine system. 5. The steam turbine system of claim 1, wherein the low-pressure turbine section is a first low-pressure turbine section; and the low-pressure control valve is a first low-pressure control valve, the steam turbine system comprising one or more low-pressure turbine sections in addition to the first low-pressure turbine section and one or more low-pressure control valves in addition to the first low-pressure control valve. 6. The steam turbine system of claim 1, wherein the controller is operable to calculate the coefficients of a steam performance map of the steam turbine system by curve fitting the measurements of the three or more different operating points. 7. The steam turbine system of claim 1, wherein the steam turbine system operates in an extraction mode or an admission mode. 8. A method for generating a steam performance map of a steam turbine system, the steam turbine system comprising a high-pressure control valve, operable to provide an adjustable flow of steam fluid into a high-pressure turbine section, and a low-pressure control valve operable to provide an adjustable flow of steam fluid into a low-pressure turbine section, the method comprising, during operation of the steam turbine system: changing, by data processing apparatus, a pressure or flow demand of the steam turbine system;in response to the change of the pressure or flow demand of the steam turbine system, receiving, by the data processing apparatus, a measured response to the change of the pressure or flow demand of the steam turbine system;changing, by the data processing apparatus, a speed or load demand of the steam turbine system;in response to the change of the speed or load demand of the steam turbine system, receiving, by the data processing apparatus, a measured response to the change of the speed or load demand of the steam turbine system;wherein the response to the change of the pressure or flow demand of the steam turbine system and the response to the change of the speed or load demand of the steam turbine system comprises measurements of three or more different operating points of the steam turbine system, the measurements of each of the three or more different operating points comprising a position of the high-pressure control valve, a position of the low-pressure control valve, and two of process variables of the steam turbine system;calculating, by the data processing apparatus, coefficients of a steam performance map of the steam turbine system based on the measurements of each of the three or more different operating points, the steam performance map representing a first relationship between the position of the high-pressure control valve and the two of the process variables of the steam turbine system, and a second relationship between the position of the low-pressure control valve and the two of the process variables of the steam turbine system; andgenerating, by the data processing apparatus, the steam performance map of the steam turbine system based on the coefficients. 9. The method of claim 8, further comprising controlling the steam turbine system based on the steam performance map of the steam turbine system. 10. The method of claim 9, wherein the controlling the steam turbine system based on the steam performance map of the steam turbine system comprises: receiving current values of the two process variables of the steam turbine system;determining a desired position of the high-pressure control valve and a desired position of the low-pressure control valve based on the coefficients of the steam performance map of the steam turbine system and the current values of the two process variables of the steam turbine system;outputting the desired position of the high-pressure control valve to an actuator coupled with the high-pressure control valve; andoutputting the desired position of the low-pressure control valve to an actuator coupled with the low-pressure control valve. 11. The method of claim 8, further comprising: operating the steam turbine system at the three or more different operating points; andfor the each of the three or more different operating points, measuring the position of the high-pressure control valve, the position of the low-pressure control valve, and the two of the process variables of the steam turbine system. 12. The method of claim 8, wherein the process variables of the steam turbine system comprise two or more of the following: turbine speed, turbine load, extraction or admission pressure or flow, inlet steam pressure or flow, and exhaust steam pressure or flow of the steam turbine system. 13. The method of claim 8, wherein one of the two of the process variables of the steam turbine system comprises a turbine load or a turbine speed, and another of the two of the process variables of the steam turbine system comprises an extraction pressure or flow of the steam turbine system. 14. The method of claim 8, wherein the calculating coefficients of a steam performance map of the steam turbine system comprises calculating the coefficients of a steam performance map of the steam turbine system by curve fitting the measurements of each of the three or more different operating points. 15. A non-transitory computer-readable medium storing instructions that, when executed by data processing apparatus, perform operations for generating a steam performance map of a steam turbine system that comprises a high-pressure control valve operable to provide an adjustable flow of steam fluid into a high-pressure turbine section and a low-pressure control valve operable to provide an adjustable flow of steam fluid into a low-pressure turbine section, the operations comprising: receiving, by data processing apparatus, measurements of three or more different operating points of steam turbine system, the measurements of each of the three or more different operating points including a position of the high-pressure control valve, a position of the low-pressure control valve, and two of process variables of the steam turbine system;calculating, by the data processing apparatus, coefficients of a steam performance map of the steam turbine system based on the measurements of each of the three or more different operating points, the steam performance map representing a first relationship between the position of the high-pressure control valve and the two of the process variables of the steam turbine system, and a second relationship between the position of the low-pressure control valve and the two of the process variables of the steam turbine system, wherein the calculating the coefficients comprises calculating slopes of constant process flows on the steam performance map based on the measurements of each of the three or more different operating points; andgenerating, by the data processing apparatus, the steam performance map of the steam turbine system based on the coefficients. 16. The non-transitory computer-readable medium of claim 15, wherein the operations further include controlling the steam turbine system based on the steam performance map of the steam turbine system. 17. The non-transitory computer-readable medium of claim 16, wherein the operations further include, wherein the controlling the steam turbine system based on the steam performance map of the steam turbine system includes: receiving current values of the two process variables of the steam turbine system;determining a desired position of the high-pressure control valve and a desired position of the low-pressure control valve based on the coefficients of the steam performance map of the steam turbine system and the current values of the two process variables of the steam turbine system;outputting the desired position of the high-pressure control valve to an actuator coupled with the high-pressure control valve; andoutputting the desired position of the low-pressure control valve to an actuator coupled with the low-pressure control valve. 18. The non-transitory computer-readable medium of claim 15, wherein the operations further include: operating the steam turbine system at the three or more different operating points; and for the each of the three or more different operating points, measuring the position of the high-pressure control valve, the position of the low-pressure control valve, and the two of the process variables of the steam turbine system. 19. The non-transitory computer-readable medium of claim 15, wherein the process variables of the steam turbine system include two or more of the following: turbine speed, turbine load, extraction or admission pressure or flow, inlet steam pressure or flow, and exhaust steam pressure or flow of the steam turbine system. 20. The non-transitory computer-readable medium of claim 15, wherein the operations further include, wherein the calculating coefficients of a steam performance map of the steam turbine system includes calculating the coefficients of a steam performance map of the steam turbine system by curve fitting the measurements of each of the three or more different operating points.
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이 특허에 인용된 특허 (4)
Chandler, Christopher, Automated tuning of gas turbine combustion systems.
Bukowski James M. (Pittsburgh PA) Midock Gary E. (Pittsburgh PA) Walko Ronald J. (Bethel PA), Method and apparatus for controlling the control valve setpoint mode selection for an extraction steam turbine.
Giras Theodore C. (Forest Hills PA) Birnbaum Manfred E. (Philadelphia PA), System and method for operating a steam turbine and an electric power generating plant.
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