Gasification power plant control device, gasification power plant, and gasification power plant control method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-001/00
F02C-006/18
F02C-003/28
F23N-005/00
C10J-003/46
C10J-003/72
F23L-007/00
F02C-003/22
F02C-009/40
F01K-023/06
출원번호
US-0786064
(2014-04-24)
등록번호
US-10233835
(2019-03-19)
우선권정보
JP-2013-094273 (2013-04-26)
국제출원번호
PCT/JP2014/061635
(2014-04-24)
국제공개번호
WO2014/175405
(2014-10-30)
발명자
/ 주소
Tamura, Ken
Fujii, Takashi
Tsutsumi, Takanori
Kijima, Takashi
출원인 / 주소
MITSUBISHI HITACHI POWER SYSTEMS, LTD.
대리인 / 주소
Wenderoth, Lind & Ponack, L.L.P.
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
This IGCC plant is provided with an ASU which separates oxygen gas and nitrogen gas from air, a coal gasification furnace which uses an oxidizing agent to gasify coal, and a gas turbine which is driven by the combustion gas resulting from burning a gas generated by means of the coal gasification fur
This IGCC plant is provided with an ASU which separates oxygen gas and nitrogen gas from air, a coal gasification furnace which uses an oxidizing agent to gasify coal, and a gas turbine which is driven by the combustion gas resulting from burning a gas generated by means of the coal gasification furnace. This IGCC plant control device (50) is provided with an air separation amount determination unit (52) which determines the production amount of nitrogen gas produced by the ASU depending on the operating load of the IGCC plant, and supplies to the coal gasification furnace the entire amount of oxygen gas generated as a byproduct in response to the determined nitrogen gas production amount. By this means, the IGCC plant can minimize blow-off of oxygen gas produced from the air.
대표청구항▼
1. A gasification power plant control device for controlling a gasification power plant that includes an air separation unit that separates oxygen gas and nitrogen gas from air, a gasification furnace that gasifies a carbon-containing fuel with the oxygen gas as an oxidizing agent, and a gas turbine
1. A gasification power plant control device for controlling a gasification power plant that includes an air separation unit that separates oxygen gas and nitrogen gas from air, a gasification furnace that gasifies a carbon-containing fuel with the oxygen gas as an oxidizing agent, and a gas turbine that is driven by combustion gas resulting from burning fuel gas obtained by refining gas generated by the gasification furnace using gas clean-up equipment, the gasification power plant control device comprising: an air separation amount determination unit which determines a production amount of the nitrogen gas produced by the air separation unit and supplied to the gasification furnace depending on an operation load of the gasification power plant,wherein an entire amount of oxygen gas generated as a byproduct in response to the production amount of the nitrogen gas determined by the air separation amount determination unit is supplied to the gasification furnace. 2. The gasification power plant control device according to claim 1, the control device further comprising a required oxidizing agent flow rate determination unit, and an extracted air amount determination unit, wherein a total amount of the oxidizing agent to be supplied to the gasification furnace is adjusted by an amount of air extracted from the gas turbine. 3. A gasification power plant, comprising: an air separation unit which separates oxygen gas and nitrogen gas from air;a gasification furnace which gasifies a carbon-containing fuel with the oxygen gas as an oxidizing agent;a gas turbine which is driven by combustion gas resulting from burning fuel gas which is obtained by refining gas generated by the gasification furnace using gas clean-up equipment; anda gasification power plant control device including an air separation amount determination unit which determines a production amount of the nitrogen gas produced by the air separation unit and supplied to the gasification furnace depending on an operation load of the gasification power plant,wherein the entire amount of oxygen gas generated as a byproduct in response to the production amount of the nitrogen gas determined by the air separation amount determination unit is supplied to the gasification furnace. 4. The gasification power plant according to claim 3, wherein the control device further comprises a required oxidizing agent flow rate determination unit, and an extracted air amount determination unit, wherein a total amount of the oxidizing agent supplied to the gasification furnace can be adjusted by an amount of air extracted from the gas turbine. 5. The gasification power plant according to claim 3, wherein the operation load of the gasification power plant is an output command value with respect to the gasification power plant. 6. The gasification power plant according to claim 3, wherein the gasification furnace includes a slag melting burner which melts slag in the gasification furnace, and wherein when the slag melting burner is used, the oxygen gas produced by the air separation unit is supplied to the slag melting burner, and the oxygen gas supplied to the burner gasifying the carbon-containing fuel is adjusted by a burner valve opening degree determination unit. 7. The gasification power plant according to claim 3, wherein the gasification power plant includes an oxidizing agent supply path through which air extracted from an air compressor of the gas turbine or oxygen separated from the air is supplied to the gasification furnace as the oxidizing agent, and wherein when the gasification power plant is in a stationary state, an air ratio fixation mode of fixing an air ratio which is a ratio of the amount of the oxidizing agent supplied to the gasification furnace with respect to a theoretical combustion oxidizing agent amount of the carbon-containing fuel is set, and when an operation state amount of the gasification furnace or a load of the gasification power plant is changed, an air ratio variation mode capable of changing the air ratio is set. 8. The gasification power plant according to claim 3, wherein the gasification power plant includes an oxidizing agent supply path through which air extracted from an air compressor of the gas turbine or oxygen separated from the air is supplied to the gasification furnace as the oxidizing agent, and wherein it is allowed that an air ratio which is a ratio of the amount of the oxidizing agent supplied to the gasification furnace with respect to a theoretical combustion oxidizing agent amount of the carbon-containing fuel is deviated from a predetermined set value depending on variation of an operation state amount of the gasification furnace or variation of a load of the gasification power plant, and the amount of the oxidizing agent supplied to the gasification furnace is controlled to be within a predetermined upper limit. 9. A gasification power plant control method, in which a gasification power plant includes an air separation unit which separates oxygen gas and nitrogen gas from air, a gasification furnace which gasifies a carbon-containing fuel with the oxygen gas as an oxidizing agent, and a gas turbine which is driven by combustion gas resulting from burning fuel gas which is obtained by refining gas generated by the gasification furnace using gas clean-up equipment, the method comprising: a first step of determining a production amount of the nitrogen gas produced by the air separation unit and supplied to the gasification furnace depending on an operation load of the gasification power plant, the production amount of the nitrogen gas being determined by an air separation amount determination unit; anda second step of supplying an entire amount of oxygen gas, generated as a byproduct in response to production of the nitrogen gas, to the gasification furnace.
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이 특허에 인용된 특허 (2)
Fick Bruce R. (Ballston Lake NY) Jones Robert M. (Scotia NY), Coal gasification power generation plant.
Agrawal Rakesh (Allentown PA) Espie David M. (Ealing GB2) O\Connor Declan P. (Surrey PA GB2) Mandler Jorge A. (Allentown PA) Smith Arthur R. (Talford PA) Woodward Donald W. (New Tripoli PA), Process and system for controlling a cryogenic air separation unit during rapid changes in production.
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