Having Condition Responsive Fuel Control Patents (Class 60/790)
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Publication number: 20080271461Abstract: A method of starting a turbine engine at a first engine speed value which is lower than a second engine speed value designed for a normal engine starting operation, comprises varying a fuel flow into a combustor of the engine to start the engine in repeatedly alternating speed acceleration and deceleration cycles in order to create an engine speed augmentation in each of the speed acceleration and deceleration cycles, thereby achieving the second engine speed value while preventing the engine from being overheated, and then beginning the normal engine starting operationType: ApplicationFiled: May 3, 2007Publication date: November 6, 2008Inventors: Andrej Terlecki, Graham Bridges, Christopher Day, Mark Laderman
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Publication number: 20080250792Abstract: A method of operating a gas turbine engine having a turbine and a compressor connected via a shaft, a main fuel supply line for supplying fuel to a combustor that is positioned to release expanding hot gases to the turbine, the engine further including a starter/generator connected to the shaft via a gearbox assembly, the method is characterised the step of during engine start up fuel is circulated in a re-circulating fuel circuit positioned on the main fuel supply line and which a first fuel/oil heat exchanger, for cooling the oil, and a fuel accumulator.Type: ApplicationFiled: March 24, 2008Publication date: October 16, 2008Applicant: ROLLS-ROYCE PLCInventors: YI WANG, PAUL DAVID REES
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Patent number: 7331169Abstract: Conventional auxiliary power units (APUs) may experience over-temperature shutdowns when attempting to start them at high altitudes. Further, such conventional APUs may also experience overspeed conditions when a generator load is removed during on-speed operations. A fuel control logic that controls the fuel flow cutback below the minimum blowout fuel schedule is provided. A temperature trim loop measures engine temperature to determine the onset of a possible over-temperature condition. The fuel flow may then be trimmed accordingly to correct this over-temperature onset. Further, when the onset of an overspeed condition is detected, such as when a generator load is removed, the fuel flow may be trimmed accordingly to correct this overspeed onset. The fuel control logic allows the control to find the individual minimum fuel flow for each fuel control without risking blowout of the APU itself.Type: GrantFiled: November 7, 2006Date of Patent: February 19, 2008Assignee: Honeywell International, Inc.Inventor: Harold J. Riley
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Patent number: 7181916Abstract: A method for combustion in a combustor in a gas turbine including: fueling the center fuel nozzle with a fuel-rich mixture of gaseous fuel and air and fueling the outer fuel nozzles with a fuel-lean mixture of fuel and air; igniting the fuel-rich mixture injected by the center fuel nozzle while the fuel-lean mixture injected by the outer combustors is insufficient to sustain ignition; stabilizing a flame on the center fuel nozzle using the bluff body and while the outer fuel nozzles inject the fuel-lean mixture; staging fuel to the outer nozzles by increasing a fuel ratio of the fuel-lean mixture, and after the outer nozzles sustain ignition, reducing fuel applied to the center nozzle.Type: GrantFiled: August 31, 2006Date of Patent: February 27, 2007Assignee: General Electric CompanyInventors: Willy Steve Ziminsky, Derrick W. Simons, Arthur James Fossum
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Patent number: 7143584Abstract: 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.Type: GrantFiled: February 17, 2003Date of Patent: December 5, 2006Assignee: Ebara CorporationInventors: Terence McKelvey, Eishi Marui, Masahiro Miyamoto, Tadashi Kataoka, Tai Furuya
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Patent number: 6988368Abstract: A method of engine starting in a gas turbine engine comprises rotating the engine to provide an air flow into a combustor of the engine and injecting fuel into the combustor at a varying rate until the engine is lighted-off. The varying rate of the fuel flow is a function of time and is represented by a curve having at least one high frequency with respect to a light-off time, representing instant changes of the rate for intersecting a light-off zone while reducing a quantity of fuel injected into the combustor. After the light-off occurrence fuel is continuously injected into the combustor to accelerate the engine to a self-sustaining operation condition. This method of the present invention is adapted to find light-off points under various temperature and altitude conditions, thereby advantageously providing a rapid light-off, particularly under cold weather conditions.Type: GrantFiled: September 16, 2004Date of Patent: January 24, 2006Assignee: Pratt & Whitney Canada Corp.Inventor: Richard John O'Connor
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Patent number: 6834226Abstract: A method of operating a turboalternator when the turbine engine speed is between synchronous speed and self-sustaining speed.Type: GrantFiled: September 12, 2003Date of Patent: December 21, 2004Assignee: Elliott Energy Systems, Inc.Inventor: Anthony A. Hartzheim
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Patent number: 6810676Abstract: A method of engine starting in a gas turbine engine comprises rotating the engine to provide an air flow into a combustor of the engine and injecting fuel into the combustor at a varying rate until the engine is lighted-off. The varying rate of the fuel flow is a function of time and is represented by a curve having at least one high frequency with respect to a light-off time, representing instant changes of the rate for intersecting a light-off zone while reducing a quantity of fuel injected into the combustor. After the light-off occurrence fuel is continuously injected into the combustor to accelerate the engine to a self-sustaining operation condition. This method of the present invention is adapted to find light-off points under various temperature and altitude conditions, thereby advantageously providing a rapid light-off, particularly under cold weather conditions.Type: GrantFiled: December 14, 2001Date of Patent: November 2, 2004Assignee: Pratt & Whitney Canada Corp.Inventor: Richard John O'Connor
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Patent number: 6810677Abstract: A method for gas turbine light-off that utilizes a fixed or secondary fuel line that provides a substantially constant flow of fuel to the combustor primarily upon light-off.Type: GrantFiled: August 27, 2002Date of Patent: November 2, 2004Assignee: Elliot Energy Systems, Inc.Inventor: David Dewis
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Patent number: 6792760Abstract: A method of operating a turbine arranged in a compressed air energy storage power generation plant comprises an open-loop control of an air mass flow applied within a lower turbine speed range and a closed-loop control of the turbine speed within a higher turbine speed range. The open-loop control comprises the control of the air mass flow by means of air inlet valves and a free development of the turbine speed. The closed-loop control comprises the control of the turbine speed by means of a speed controller, which is acted upon by a speed limiting value determined according to the current air mass flow and a windage calculation. The speed controller activates a static frequency converter in the case that the turbine speed reaches values that are critical with respect to turbine windage or rotor dynamics.Type: GrantFiled: December 6, 2002Date of Patent: September 21, 2004Assignee: Alstom Technology LTDInventors: Gernot Mathias, Bozidar Seketa
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Patent number: 6766647Abstract: A method for ignition and start up of a gas turbine engine in which the fuel flow is supplied to the combustor at a substantially constant rate for ignition and the gas turbine engine is ramped up at a preset acceleration rate to a speed to provide a supply of combustion air to the combustor in order to achieve the correct fuel-to-air ratio for ignition.Type: GrantFiled: July 25, 2002Date of Patent: July 27, 2004Assignee: Elliott Energy Systems, Inc.Inventor: Anthony A. Hartzheim
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Patent number: 6484510Abstract: A fuel control system for supplying metered quantities of fuel from a fuel supply (11), through a fuel pump (13), a metering valve (15) and a pressurizing valve (17) to a plurality of engine fuel manifolds (31a, 31b, 33) includes an ecology valve (43) for withdrawing fuel from the engine fuel manifolds (31a, 31b, 33) during cessation of engine operation and for returning fuel to the engine fuel manifolds (31a, 31b, 33) to be burned during normal engine operation. The ecology valve (43) includes a valve housing (44) having a plurality of ecology ports (50, 52, 54) adapted to be coupled to corresponding ones of the engine fuel manifolds (31a, 31b, 33) and a control port (46) adapted to be connected to a corresponding control port (45) of the fuel pressurizing valve (17).Type: GrantFiled: December 11, 2001Date of Patent: November 26, 2002Assignee: AlliedSignal Inc.Inventors: Paul W. Futa, Jr., Steven F. Fisher, Kevin R. Sharp
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Patent number: 6470688Abstract: The startup time or the output gradient of a gas turbine plant during startup are limited by the maximum permissible temperature gradient. The increase in the fuel mass flow supplied, if appropriate in combination with the combustion-air mass flow supplied, is consequently also limited. In order to accelerate the startup and to increase the output gradient during startup, then, an additional working medium, for example water or steam, increasing the mass flow flowing through the turbine is supplied at the same time as the fuel mass flow and/or combustion-air mass flow. The output gradient is therefore increased with the maximum permissible temperature gradient remaining the same, so that a required output is reached more rapidly.Type: GrantFiled: October 29, 2001Date of Patent: October 29, 2002Assignee: Alstom (Switzerland) LtdInventors: Richard Blatter, Erhard Liebig
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Patent number: 6370880Abstract: Transient conditions, such as startup, shutdown, and contingencies, in gas turbine power plants are difficult to manage; oftentimes in designs employing a fuel moisturization system, such conditions require the use of backup fuel or a temporary fuel stream flare. The present invention enables the use of cold, dry fuel during startup and smoothly transitions to the use of moisturized, superheated fuel at high load without using a backup fuel. A bypass line allows fuel to enter a fuel superheater without passing through a fuel saturator. This enables the independent operation of the fuel superheater from the fuel saturator. Additionally, dry fuel is heated in the fuel superheater before moisturized fuel enters the fuel superheater. Gradually, a transition from dry fuel to moisturized fuel occurs before the gas turbine system operates at premixed combustion mode of operation.Type: GrantFiled: November 9, 2000Date of Patent: April 16, 2002Assignee: General Electric CompanyInventors: Raub Warfield Smith, Jatila Ranasinghe, William George Carberg