A gas turbine apparatus is provided which comprises a turbine, a combustor for burning a mixture of air and fuel and providing the turbine with a combustion gas to drive it, a generator connected to the turbine to receive rotational force therefrom to generate electric power, a temperature sensor fo
A gas turbine apparatus is provided which comprises a turbine, a combustor for burning a mixture of air and fuel and providing the turbine with a combustion gas to drive it, a generator connected to the turbine to receive rotational force therefrom to generate electric power, a temperature sensor for measuring a temperature of an exhaust gas from the turbine, a temperature setting unit and a power setting unit. The power setting unit sets a set output power of the generator such that a first set output power is set when starting-up the generator, the first set output power is decreased at a first rate when the measured exhaust gas temperature reaches a second set temperature higher than a first target temperature, a currently set output power is decreased at a second rate higher than the first rate when the measured exhaust gas temperature reaches a third set temperature higher than the second set temperature after decreasing the set output power at the first rate, and a currently set output power is increased at a third rate smaller than the second rate when the exhaust gas temperature reaches a forth set temperature smaller than the first set temperature after decreasing the set output power at the second rate.
대표청구항▼
The invention claimed is: 1. A gas turbine apparatus comprising: a turbine for providing rotational force; a combustor for burning a mixture of air and fuel and providing said turbine with a combustion gas to drive it; a generator connected to said turbine to receive the rotational force to generat
The invention claimed is: 1. A gas turbine apparatus comprising: a turbine for providing rotational force; a combustor for burning a mixture of air and fuel and providing said turbine with a combustion gas to drive it; a generator connected to said turbine to receive the rotational force to generate electric power; a temperature sensor for measuring a temperature of an exhaust gas from said turbine; temperature setting means for setting a target temperature of said exhaust gas as a first set temperature, a second set temperature higher than said first set temperature, a third set temperature higher than said second temperature, and a fourth set temperature smaller than said first set temperature; and power setting means connected to said temperature sensor and temperature setting means, for setting a set output power of said generator as follows: a first set output power is set when starting-up said-generator; said first set output power of said generator is decreased at a first rate when said exhaust gas temperature measured by said temperature sensor reaches said second set temperature; a currently set output power of said generator is decreased at a second rate higher than said first rate when said exhaust gas temperature reaches said third set temperature after decreasing said set output power at said first rate; and a currently set output power of said generator is increased at a third rate smaller than said second rate when said exhaust gas temperature reaches said forth set temperature after decreasing said set output power at said second rate. 2. A gas turbine apparatus according to claim 1, wherein a difference between said first and second set temperatures is set to be substantially equal to a difference between said first and fourth set temperatures. 3. A gas turbine apparatus according to claim 1, wherein said first rate for use to decrease the set output power of said generator is set to be substantially equal to said third rate for use to increase the set output power of said generator. 4. A gas turbine apparatus according to claim 1, further comprising: means for setting an opening degree of a valve for providing said fuel to said combustor, in response to a set output power currently set in said power setting means. 5. A gas turbine apparatus according to claim 1, wherein said temperature setting means further comprises: set temperature increasing means for linearly increasing said exhaust gas set temperature from said first set temperature to a fifth set temperature near a tolerance maximum set temperature during a predetermined time period after said exhaust gas temperature measured by said temperature sensor converges on said first set temperature, and then keeping said set temperature at said fifth setting temperature. 6. A gas turbine apparatus according to claim 5, wherein said set temperature increasing means is adapted to set predetermined bands above and below a function defining the linear increase of said exhaust gas set temperature from said first set temperature to said fifth set temperature, and said power setting means is adapted to decrease a currently set output power at a predetermined rate when said exhaust gas temperature is higher than the upper band, and to increase a currently set output power at a predetermined rate when said exhaust gas temperature is lower than the lower band. 7. A gas turbine apparatus comprising: a turbine for providing rotational force; a combustor for burning a mixture of air and fuel and providing said turbine with a combustion gas to drive it; a generator connected to said turbine to receive the rotational force to generate electric power; a temperature sensor for measuring a temperature of an exhaust gas from said turbine; temperature setting means for setting a target temperature of said exhaust gas as a first set temperature; and power setting means connected to said temperature sensor and temperature setting means, for setting a set output power of said generator such that a first set output power is set when starting-up said generator, and said first set output power of said generator is changed to a current process output power of said generator when said exhaust gas temperature measured by said temperature sensor reaches said first set temperature. 8. A gas turbine apparatus according to claim 7, further comprising: means for setting an opening degree of a valve for providing said fuel to said combustor, in response to a set output power currently set in said power setting means. 9. A gas turbine apparatus according to claim 7, wherein said temperature setting means further comprises: set temperature increasing means for linearly increasing said exhaust gas set temperature from said first set temperature to a second set temperature near a tolerance maximum set temperature during a predetermined time period after said exhaust gas temperature measured by said temperature sensor converges on said first set temperature, and then keeping said set temperature at said second set temperature. 10. A gas turbine apparatus according to claim 9, wherein said set temperature increasing means is adapted to set predetermined bands above and below a function defining the linear increase of said exhaust gas set temperature from said first set temperature to said fifth set temperature, and said power setting means is adapted to decrease a currently set output power at a predetermined rate when said exhaust gas temperature is higher than the upper band, and to increase a currently set output power at a predetermined rate when said exhaust gas temperature is lower than the lower band. 11. A method for starting-up a gas turbine apparatus which comprises a turbine for providing rotational force, a combustor for burning a mixture of air and fuel and providing said turbine with a combustion gas to drive it, and a generator connected to said turbine to receive the rotational force to generate electric power; said method comprising the steps of: setting a set output power of said generator such that a first set output power is set when starting-up said generator; setting a target temperature of said exhaust gas as a first set temperature, a second set temperature higher than said first set temperature, a third set temperature higher than said second temperature, and a fourth set temperature smaller than said first set temperature; decreasing said first set output power of said generator at a first rate when said exhaust gas temperature measured by a temperature sensor reaches said second set temperature; decreasing a current set output power of said generator at a second rate higher than said first rate when said exhaust gas temperature reaches said third set temperature after decreasing said set output power at said first rate; and increasing a current set output power of said generator at a third rate smaller than said second rate when said exhaust gas temperature reaches said forth set temperature after decreasing said set output power at said second rate. 12. A method for staring-up a gas turbine apparatus which comprises a turbine for providing rotational force, a combustor for burning a mixture of air and fuel and providing said turbine with a combustion gas to drive it, and a generator connected to said turbine to receive the rotational force to generate electric power, said method comprising the steps of; setting a set output power of said generator such that a first set output power is set when starting-up said generator; setting a target temperature of said exhaust gas as a first set temperature; and changing said first set output power of said generator to a current process output power when said exhaust gas temperature measured by said temperature sensor reaches said first set temperature.
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이 특허에 인용된 특허 (3)
Sato Isao (Hitachi JPX) Hirose Fumiyuki (Hitachi JPX) Takaba Minoru (Hitachi JPX) Shimura Akira (Hitachi JPX) Takahashi Shoei (Hitachi JPX) Ikeda Hiraku (Hitachinaka JPX), Gas turbine control method and apparatus.
Ingham Peter C. (El Cajon CA) Sjoberg Sven B. (San Diego CA) Vavrek Gary P. (San Diego CA) Goldberg Gary L. (San Diego CA) Treece William D. (La Mesa CA), Process for starting a gas turbine and gas turbine.
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