A control system and methodology for a gas turbine having multiple fuel valves for multiple combustion chambers involves tuning the fuel values to associated combustion chambers to optimize nitrous oxide emissions; dynamic pressure, and variation in fuel/air ratio. Further, fine tuning of the fuel v
A control system and methodology for a gas turbine having multiple fuel valves for multiple combustion chambers involves tuning the fuel values to associated combustion chambers to optimize nitrous oxide emissions; dynamic pressure, and variation in fuel/air ratio. Further, fine tuning of the fuel values is then used to maintain dynamic pressure oscillations, nitrous oxide emissions or variation in fuel/air ratio within predetermined limits.
대표청구항▼
1. A gas turbine having a plurality of chambers, each one of said chambers comprising:at least one combustion reaction zone receiving air from a compressor and fuel from a fuel distributor;said fuel distributor having a fuel trim orifice and a fuel trim valve, said fuel trim valve for said each one
1. A gas turbine having a plurality of chambers, each one of said chambers comprising:at least one combustion reaction zone receiving air from a compressor and fuel from a fuel distributor;said fuel distributor having a fuel trim orifice and a fuel trim valve, said fuel trim valve for said each one of said chambers being individually adjustable to trim the flow of fuel to the chamber;a pressure sensor detecting a dynamic gas pressure in the chamber;a variation sensor for detecting the variation in fuel/air ratio from said plurality of chambers; anda computer controller coupled to said fuel trim valve and said sensors, and programmed for operatively adjusting the fuel trim valve to optimize the dynamic gas pressure detected by the pressure sensor and the variation in fuel/air ratio detected by the variation sensor, and for further adjusting the fuel trim valve for each one of said chambers to maintain said variation in fuel/air ratio at a predetermined level. 2. A gas turbine as claimed in claim 1, said variation sensor comprising a plurality of thermocouples for sensing the chamber temperature of each one of said plurality of chambers. 3. A gas turbine having a plurality of chambers, each one of said chambers comprising:at least one combustion reaction zone receiving air from a compressor and fuel from a fuel distributor;said fuel distributor having a fuel trim orifice and a fuel trim valve, said fuel trim valve for said each one of said chambers being individually adjustable to trim the flow of fuel to the chamber;a pressure sensor detecting a dynamic gas pressure in the chamber;a variation ratio sensor for detecting the variation in fuel/air ratio from said plurality of chambers; anda computer controller coupled to said fuel trim valve and said sensors, and programmed for operatively adjusting the fuel trim valve to optimize the dynamic gas pressure detected by the pressure sensor and the variation in fuel/air ratio detected by the variation sensor, and for further adjusting the fuel trim valve for each one of said chambers to maintain NO x emissions at a predetermined level. 4. A gas turbine as claimed in claim 3, said variation sensor comprising a plurality of thermocouples for sensing the chamber temperature of each one of said plurality of chambers. 5. A control system for a gas turbine having multiple combustors, and multiple fuel lines and valves to at least one of said multiple combustors, said control system comprising:at least one pressure sensor for detecting dynamic gas pressure in said multiple combustors;at least one variation sensor for detecting variation in fuel/air ratio between said multiple combustors;a computer controller coupled to said multiple fuel valves and said sensors, and programmed for operatively adjusting said multiple fuel valves to enhance the dynamic gas pressure detected by said at least one pressure sensor and the variation in fuel/air ratio detected by said at least one variation sensor, and for further adjusting said multiple fuel valves to maintain the variation in fuel/air ratio at a predetermined level. 6. A control system as claimed in claim 5, said at least one variation sensor comprising at least one thermocouple for sensing chamber temperature of at least one of said multiple combustors. 7. A control system for a gas turbine having multiple combustors, and multiple fuel lines and valves to at least one of said multiple combustors, said control system comprising:at least one pressure sensor for detecting dynamic gas pressure in said multiple combustors;at least one variation sensor for detecting variation in fuel/air ratio between said multiple combustors;a computer controller coupled to said multiple fuel valves and said sensors, and programmed for operatively adjusting said multiple fuel valves to enhance the dynamic gas pressure detected by said at least one pressure sensor and the variation in fuel/air ratio detected by said at least one variation sensor, and for further adju sting said multiple fuel valves to maintain NO x emissions at a predetermined level. 8. A control system as claimed in claim 7, said at least one variation sensor comprising at least one thermocouple for sensing chamber temperature of at least one of said multiple combustors. 9. A control system for a gas turbine having multiple combustors, and multiple fuel lines and valves to at least one of said multiple combustors, said control system comprising:pressure sensor means for detecting dynamic gas pressure in said multiple combustors;means for detecting variation in fuel/air ratio between said multiple combustors;computer controller means coupled to said multiple fuel valves, said pressure sensor means and said detecting means, and programmed for operatively adjusting said multiple fuel valves to enhance the dynamic gas pressure detected by said pressure sensor means and the variation in fuel/air ratio detected by said detecting means, and for further adjusting said multiple fuel valves to maintain the variation in fuel/air ratio at a predetermined level. 10. A control system as claimed in claim 9, said detecting means comprising at least one thermocouple for sensing chamber temperature of at least one of said multiple combustors. 11. A control system for a gas turbine having multiple combustors, and multiple fuel lines and valves to at least one of said multiple combustors, said control system comprising:pressure sensor means for detecting dynamic gas pressure in said multiple combustors;means for detecting variation in fuel/air ratio between said multiple combustors;computer controller means coupled to said multiple fuel valves, said pressure sensor means and said detecting means, and programmed for operatively adjusting said multiple fuel valves to enhance the dynamic gas pressure detected by said pressure sensor means and the variation in fuel/air ratio detected by said detecting means, and for further adjusting said multiple fuel valves to maintain NO x emissions at a predetermined level. 12. A control system as claimed in claim 11, said detecting means comprising at least one thermocouple for sensing chamber temperature of at least one of said multiple combustors.
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이 특허에 인용된 특허 (7)
Brown Dale M. (Schenectady NY) Gorowitz Bernard (Clifton Park NY), Combustion control for producing low NOx emissions through use of flame spectroscopy.
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Davis ; Jr. Lewis B. (Schenectady NY) Fitts David O. (Ballston Spa NY) Mick Warren J. (Altamont NY) Sciocchetti Michael B. (Schenectady NY) Cohen Mitchell R. (Troy NY), Method for staging fuel in a turbine between diffusion and premixed operations.
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Myers, Geoffrey David; Snider, David August; Motter, Eric; Tegel, Daniel R.; Harper, James; Watts, Stephen R.; Citeno, Joseph, Methods and systems for operating gas turbine engines.
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