Method for operating a gas turbine and gas turbine unit useful for carrying out the method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F02C-009/40
F02C-009/34
F02C-009/28
F02C-009/48
G01N-021/3504
출원번호
US-0555331
(2012-07-23)
등록번호
US-9920696
(2018-03-20)
우선권정보
CH-1313/11 (2011-08-09)
발명자
/ 주소
Emberger, Norbert Walter
Bajaj, Pankaj
Kenyon, Michael
Keppler, Frank
Amsler, Tobias Christian
Zhang, Mengbin
Pavlic, Zlatko
출원인 / 주소
ANSALDO ENERGIA IP UK LIMITED
대리인 / 주소
Buchanan Ingersoll & Rooney PC
인용정보
피인용 횟수 :
0인용 특허 :
4
초록▼
A method for operating a gas turbine (11) having a compressor (12), a turbine (14) and a combustor (13) with a pilot burner group (15a), a rich premix burner group (15b) and a lean premix burner group (15c), under changing composition of the incoming fuel gas (16), includes the steps of: continuousl
A method for operating a gas turbine (11) having a compressor (12), a turbine (14) and a combustor (13) with a pilot burner group (15a), a rich premix burner group (15b) and a lean premix burner group (15c), under changing composition of the incoming fuel gas (16), includes the steps of: continuously measuring, in real time, the composition of the fuel gas (16); and controlling the operation of the gas turbine (11) and the combustion of the burners (15a-c) by using the real time fuel gas composition measurements.
대표청구항▼
1. A method for operating a gas turbine unit, the gas turbine unit comprising (i) a gas turbine including a compressor, a turbine, and a combustor with a pilot burner group, a rich premix burner group, and a lean premix burner group, (ii) a gas turbine control system configured and arranged to suppl
1. A method for operating a gas turbine unit, the gas turbine unit comprising (i) a gas turbine including a compressor, a turbine, and a combustor with a pilot burner group, a rich premix burner group, and a lean premix burner group, (ii) a gas turbine control system configured and arranged to supply each of the pilot burner group, the rich premix burner group, and the lean premix burner group with a fuel gas, the gas turbine control system comprising an analyzer input line, (iii) a fast infrared gas analyzer configured and arranged to detect changing C2+ of the fuel gas, the fast infrared gas analyzer having an output connected to said analyzer input line, and (iv) a combustion pulsation monitoring and filtering system configured and arranged to monitor pulsations of said combustor, the method comprising: continuously detecting, in real time, changing C2+ of the fuel gas using the fast infrared gas analyzer;controlling switching between a piloted fuel gas operation and a premixed fuel gas operation depending on the detected C2+ of the fuel gas, using the gas turbine control system; andcontrolling, during the premixed fuel gas operation, operation of said gas turbine and the pilot burner group, the rich premix burner group, and the lean premix burner group, using the gas turbine control system, based on the detected C2+ of the fuel gas and the pulsations of the combustor monitored by the combustion pulsation monitoring and filtering system; andsetting a switch over set-point, in the gas turbine control system, for switching over from the piloted fuel gas operation to the premixed fuel gas operation and setting a switch back set-point, in the gas turbine control system, for switching back to the piloted fuel gas operation from the premixed fuel gas operation depending on the detected C2+ of the fuel gas, wherein the switch over set-point is a different set-point than the switch back set-point. 2. The method as claimed in claim 1, wherein controlling, during the premixed fuel gas operation, operation of said gas turbine and the pilot burner group, the rich premix burner group, and the lean premix burner group further comprises optimizing a distribution of the fuel gas between the rich premix burner group and the lean premix burner group depending on the detected C2+ of the fuel gas. 3. The method as claimed in claim 1, wherein a lower heating value (LHV) and a molecular weight (MR) of the fuel gas are determined for improved gas turbine control stability during transient gas turbine operation. 4. The method as claimed in claim 1, further comprising measuring concentrations of CH4, C2H6, C3H8 and CO2 in the fuel gas, and wherein the controlling, during the premixed fuel gas operation, operation of said gas turbine and the pilot burner group, the rich premix burner group, and the lean premix burner group is further based on the measured concentrations of CH4, C2H6, C3H8 and CO2 in the fuel gas. 5. The method as claimed in claim 1, wherein controlling, during the premixed fuel gas operation, operation of said gas turbine and the pilot burner group, the rich premix burner group, and the lean premix burner group further comprises controlling with a closed loop control, based on the pulsations of the combustor monitored by the combustion pulsation monitoring and filtering system, and controlling with an open loop control, based on the detected C2+ of the fuel gas. 6. The method as claimed in claim 3, wherein determining the LHV comprises estimating the LHV and wherein determining the MR comprises estimating the MR, and wherein estimating the LHV and estimating the MR are based on measurements of CH4, C2H6, C3H8, and CO2, concentrations in the fuel gas. 7. The method as claimed in claim 1, wherein a fuel mixing device is arranged upstream of the combustor, with respect to a direction of flow of the fuel gas. 8. A gas turbine unit comprising: a gas turbine having a compressor, a turbine, and a combustor with a pilot burner group, a rich premix burner group, and a lean premix burner group;a gas turbine control system configured and arranged to supply each of the pilot burner group, the rich premix burner group, and the lean premix burner group with a fuel gas, the gas turbine control system comprising an analyzer input line;a fast infrared gas analyzer configured and arranged to detect changing C2+ of the fuel gas, the fast infrared gas analyzer having an output connected to said analyzer input line; anda combustion pulsation monitoring and filtering system configured and arranged to monitor pulsations of said combustor,wherein the gas turbine control system is configured to switch between a piloted fuel gas operation and a premixed fuel gas operation depending on the detected C2+ of the fuel gas, wherein during the premixed fuel gas operation the gas turbine control system is configured to control operation of the gas turbine based on the detected C2+ of the fuel gas determined by the fast infrared gas analyzer and the pulsations of the combustor monitored by the combustion pulsation monitoring and filtering system, andwherein the gas turbine control system is configured to set a switch over set-point for switching over from the piloted fuel gas operation to the premixed fuel gas operation and to set a switch back set-point for switching back to the piloted fuel gas operation from the premixed fuel gas operation depending on the C2+, of the fuel gas detected by the fast infrared gas analyzer, and the switch over set-point is a different set-point than the switch back set-point. 9. The gas turbine unit as claimed in claim 8, further comprising: a control valve for each of said pilot burner group, said rich premix burner group, and said lean premix burner group, said control valves being in communication with said gas turbine control system via a command line. 10. The gas turbine unit as claimed in claim 8, wherein said gas turbine control system further comprises a monitoring input line, and the combustion pulsation monitoring and filtering system is connected to said gas turbine control system by said monitoring input line. 11. The gas turbine unit as claimed in claim 8, further comprising a fuel mixing device upstream of the combustor. 12. The gas turbine unit as claimed in claim 8, further comprising: a control valve for each of said pilot burner group, said rich premix burner group, and said lean premix burner group, said control valves being in control communication with said gas turbine control system via a command line; andthe combustion pulsation monitoring and filtering system is connected to said gas turbine control system by a monitoring input line,wherein said gas turbine control system is configured to control said control valves in accordance with measurement results of the fast infrared gas analyzer and the combustion pulsation monitoring and filtering system. 13. The gas turbine unit as claimed in claim 8, wherein said gas turbine control system optimizes a fuel distribution between the pilot burner group, the rich premix burner group, and the lean premix burner group depending on actual fuel gas composition measured by the fast infrared gas analyzer. 14. The gas turbine unit as claimed in claim 8, wherein concentrations of CH4, C2H6, C3H3, and CO2 are used as input for control of the gas turbine in addition to the detected C2+. 15. The gas turbine unit as claimed in claim 8, wherein a lower heating value and a molecular weight of the fuel gas are estimated by online measuring, of CH4-, C2H6-, C3H8- and CO2-concentrations of the fuel gas. 16. The gas turbine unit as claimed in claim 8, wherein during the premixed fuel gas operation, fuel distribution between the rich premix burner group and the lean premix burner group is optimized depending on the detected C2+ of the fuel gas. 17. The gas turbine unit as claimed in claim 9, further comprising a fuel mixing device upstream of the fast infrared gas analyzer and the control valves with respect to a direction of flow of the fuel gas.
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이 특허에 인용된 특허 (4)
Reed Terry J. (North Huntingdon PA) Smith Jack R. (Pittsburgh PA), Combined cycle electric power plant and a gas turbine having improved megawatt load control.
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