Method for controlling gas turbine power plant, gas turbine power plant, method for controlling carbon-containing fuel gasifier, and carbon-containing fuel gasifier
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-003/28
C10J-003/48
C10J-003/72
C10J-003/76
C10J-003/86
F02C-009/00
출원번호
US-0348271
(2012-10-17)
등록번호
US-9567904
(2017-02-14)
우선권정보
JP-2011-229854 (2011-10-19)
국제출원번호
PCT/JP2012/076758
(2012-10-17)
국제공개번호
WO2013/058253
(2013-04-25)
발명자
/ 주소
Shibata, Yasunari
Kitagawa, Yuichiro
Shibata, Kengo
Urakata, Yuichiro
출원인 / 주소
MITSUBISHI HITACHI POWER SYSTEMS, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
12
초록▼
A method for controlling a gas turbine power plant, a gas turbine power plant, a method for controlling a carbon-containing fuel gasifier, and a carbon-containing fuel gasifier that can keep constant the amount of heat generated from a synthetic gas produced by the carbon-containing fuel gasifier. T
A method for controlling a gas turbine power plant, a gas turbine power plant, a method for controlling a carbon-containing fuel gasifier, and a carbon-containing fuel gasifier that can keep constant the amount of heat generated from a synthetic gas produced by the carbon-containing fuel gasifier. The gas turbine power plant includes a coal gasifier including a coal gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a water-cooled wall duct disposed on the coal gasifier unit and to which a coolant, i.e., water, is directed; a gas turbine combustor that combusts the synthetic gas to produce combustion gas; a gas turbine rotated by the combustion gas produced by the gas turbine combustor; and a generator that generates electrical power. The amount of fuel fed to the coal gasifier is controlled depending on the amount of heat absorbed by the coolant directed to the water-cooled wall duct.
대표청구항▼
1. A method for controlling a gas turbine power plant equipped with a carbon-containing fuel gasifier including a gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a coolant wall that is disposed on the gasifier unit and to which a coolant is directed,a combustor th
1. A method for controlling a gas turbine power plant equipped with a carbon-containing fuel gasifier including a gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a coolant wall that is disposed on the gasifier unit and to which a coolant is directed,a combustor that combusts the synthetic gas to produce combustion gas,a gas turbine that is rotated by the combustion gas produced by the combustor, anda power-generating unit that generates electrical power as the gas turbine is rotated, the method comprising:controlling the amount of fuel fed to the carbon-containing fuel gasifier depending on the amount of heat absorbed by the coolant directed to the coolant wall. 2. The method for controlling the gas turbine power plant according to claim 1, wherein a change in the amount of heat absorbed is determined from factors that correlate with the amount of heat absorbed. 3. The method for controlling the gas turbine power plant according to claim 2, wherein the factors that correlate with the amount of heat absorbed are a flow rate of the coolant at an inlet or an outlet of the coolant wall to which the coolant is directed, temperatures of the coolant at the inlet and the outlet of the coolant wall, and pressures of the coolant at the inlet and the outlet of the coolant wall. 4. The method for controlling the gas turbine power plant according to claim 2, wherein the carbon-containing fuel gasifier includes a steam drum connected to the gasifier unit, andthe factors that correlate with the amount of heat absorbed are a flow rate of feedwater at an inlet of the steam drum or flow rate of steam at an outlet of the steam drum, temperatures of the feedwater at the inlet and the temperatures of the steam at the outlet of the steam drum, and pressures of the feedwater at the inlet and the pressures of the steam at the outlet of the steam drum. 5. The method for controlling the gas turbine power plant according to claim 4, wherein the water level and pressure of the steam drum are controlled, andthe flow rate of the feedwater at the inlet of the steam drum or the flow rate of the steam at the outlet of the steam drum can be handled as the amount of heat absorbed. 6. The method for controlling the gas turbine power plant according to claim 2, wherein the gasifier unit has a gasifier heat exchanger unit, through which the coolant flows, disposed in a gas channel thereof, andthe factors that correlate with the amount of heat absorbed are a flow rate of feedwater at an inlet of the gasifier heat exchanger unit or a flow rate of steam at an outlet of the gasifier heat exchanger unit, temperatures at the inlet and the outlet of the gasifier heat exchanger unit, and pressures at the inlet and the outlet of the gasifier heat exchanger unit. 7. The method for controlling the gas turbine power plant according to claim 1, wherein a change in the amount of heat absorbed is detected by performing a comparison and arithmetic on a measured value of the amount of heat absorbed and a setting value of the amount of heat absorbed to calculate an amount-of-generated-heat correction coefficient, and the amount of fuel fed is controlled based on the calculated amount-of-generated-heat correction coefficient. 8. The method for controlling the gas turbine power plant according to claim 7, wherein the setting value of the amount of heat absorbed is a function of operating load. 9. The method for controlling the gas turbine power plant according to claim 8, wherein the operating load is one of a plant load command, a generator output power command, and a gasifier load command. 10. A gas turbine power plant comprising: a carbon-containing fuel gasifier including a gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a coolant wall that is disposed on the gasifier unit and to which a coolant is directed;a combustor that combusts the synthetic gas to produce combustion gas;a gas turbine that is rotated by the combustion gas produced by the combustor;a power-generating unit that generates electrical power as the gas turbine is rotated; anda control unit that controls the amount of fuel fed to the carbon-containing fuel gasifier depending on the amount of heat absorbed by the coolant directed to the coolant wall. 11. A method for controlling a carbon-containing fuel gasifier equipped with a carbon-containing fuel gasifier including a gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a coolant wall that is disposed on the gasifier unit and to which a coolant is directed, the method comprising: controlling the amount of fuel fed to the carbon-containing fuel gasifier depending on the amount of heat absorbed by the coolant directed to the coolant wall. 12. The method for controlling the carbon-containing fuel gasifier according to claim 11, wherein a change in the amount of heat absorbed is determined from factors that correlate with the amount of heat absorbed. 13. The method for controlling the carbon-containing fuel gasifier according to claim 12, wherein the factors that correlate with the amount of heat absorbed are a flow rate of the coolant at an inlet or an outlet of the coolant wall to which the coolant is directed, temperatures of the coolant at the inlet and the outlet of the coolant wall, and pressures of the coolant at the inlet and the outlet of the coolant wall. 14. The method for controlling the carbon-containing fuel gasifier according to claim 12, wherein the carbon-containing fuel gasifier includes a steam drum connected to the gasifier unit, andthe factors that correlate with the amount of heat absorbed are a flow rate of feedwater at an inlet of the steam drum or a flow rate of steam at an outlet of the steam drum, temperatures of the feedwater at the inlet and the temperatures of the steam at the outlet of the steam drum, and pressures of the feedwater at the inlet and the pressures of the steam at the outlet of the steam drum. 15. The method for controlling the carbon-containing fuel gasifier according to claim 14, wherein the water level and pressure of the steam drum are controlled, andthe flow rate of the feedwater at the inlet of the steam drum or the flow rate of the steam at the outlet of the steam drum can be handled as the amount of heat absorbed. 16. The method for controlling the carbon-containing fuel gasifier according to claim 12, wherein the gasifier unit has a gasifier heat exchanger unit, through which the coolant flows, disposed in a gas channel thereof, andthe factors that correlate with the amount of heat absorbed are a flow rate of feedwater at an inlet of the gasifier heat exchanger unit or a flow rate of steam at an outlet of the gasifier heat exchanger unit, temperatures at the inlet and the outlet of the gasifier heat exchanger unit, and pressures at the inlet and the outlet of the gasifier heat exchanger unit. 17. The method for controlling the carbon-containing fuel gasifier according to claim 11, wherein a change in the amount of heat absorbed is detected by performing a comparison and arithmetic on a measured value of the amount of heat absorbed and a setting value of the amount of heat absorbed to calculate an amount-of-generated-heat correction coefficient, and the amount of fuel fed is controlled based on the calculated amount-of-generated-heat correction coefficient. 18. The method for controlling the carbon-containing fuel gasifier according to claim 17, wherein the setting value of the amount of heat absorbed is a function of operating load. 19. The method for controlling the carbon-containing fuel gasifier according to claim 18, wherein the operating load is one of a plant load command, a generator output power command, and a gasifier load command. 20. A carbon-containing fuel gasifier comprising: a gasifier unit that gasifies a fuel containing carbon to produce a synthetic gas and a coolant wall that is disposed on the gasifier unit and to which a coolant is directed; anda control unit that controls the amount of fuel fed depending on the amount of heat absorbed by the coolant directed to the coolant wall.
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이 특허에 인용된 특허 (12)
Scott, Michael W., Energy based fuel control system for gas turbine engines running on multiple fuel types.
Schmitt Gerhard (Schmitten DEX) Mielke Horst (Neu-Isenburg DEX) Herbert Peter (Frankfurt am Main DEX), Process of controlling the starting up of the gasification of solid fuels in a fluidized state.
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