公开(公告)号：US20140096827A1

公开(公告)日：2014-04-10

申请号：US13645536

申请日：2012-10-05

Applicant: GENERAL ELECTRIC COMPANY

Inventor： Alston Ilford Scipio ,  Paul Robert Fernandez ,  Thomas John Freeman ,  Sanji Ekanayake

IPC: F02C7/22

CPC classification number: F02C9/40 ,  F02C3/24 ,  F02C7/228 ,  F02C7/236 ,  Y02E50/12 ,  Y10T137/0318 ,  Y10T137/85938

Abstract: The present application provides a multiple fuel delivery system for use with a gas turbine engine. The multiple fuel delivery system may include a first fuel tank with a first fuel therein, a second fuel tank with a second fuel therein, a mixing chamber, and a flow divider downstream of the mixing chamber. The first fuel tank may be in communication with the mixing chamber via a first fuel pump and the second fuel tank may be in communication with the mixing chamber via a second fuel pump.

Abstract translation: 本申请提供了一种与燃气涡轮发动机一起使用的多燃料输送系统。 多个燃料输送系统可以包括其中具有第一燃料的第一燃料箱，其中具有第二燃料的第二燃料箱，混合室和在混合室下游的分流器。 第一燃料箱可以经由第一燃料泵与混合室连通，并且第二燃料箱可以经由第二燃料泵与混合室连通。

公开(公告)号：US09771877B2

公开(公告)日：2017-09-26

申请号：US14546520

申请日：2014-11-18

Applicant: General Electric Company

Inventor： Lewis Berkley Davis, Jr. ,  Scott Arthur Day ,  Paul Robert Fernandez ,  Harold Lamar Jordan, Jr. ,  Rex Allen Morgan

IPC: F02C9/48 ,  F02C9/56 ,  F02C9/42

CPC classification number: F02C9/56 ,  F02C9/42 ,  F02C9/48 ,  F05D2270/331 ,  F05D2270/335

Abstract: Various embodiments include a system having: at least one computing device configured to tune a set of gas turbines (GTs) by performing actions including: commanding each GT in the set of GTs to a base load level, based upon a measured ambient condition for each GT; commanding each GT in the set of GTs to adjust a respective output to match a nominal mega-watt power output value, and subsequently measuring an actual fuel flow value for each GT; adjusting an operating condition of each GT in the set of GTs based upon a difference between the respective measured actual fuel flow value and a nominal fuel flow value at the ambient condition; commanding each GT in the set of GTs to a part load level, the part load level representing a fraction of the base load level, and subsequently measuring an actual fuel flow value for each GT at the part load level; and calibrating the set of GTs based upon a difference between the measured actual fuel flow value at the part load level and the measured actual fuel flow value after adjusting the output to match the nominal mega-watt power output value.

公开(公告)号：US20170167307A1

公开(公告)日：2017-06-15

申请号：US14969200

申请日：2015-12-15

Applicant: General Electric Company

Inventor： Alston Ilford Scipio ,  Sanji Ekanayake ,  Joseph Philip Klosinski ,  Paul Robert Fernandez ,  David Clayton Poole

IPC: F01K23/10 ,  F23R3/00 ,  F23R3/28 ,  F01K7/16 ,  F02C3/04

CPC classification number: F01K23/10 ,  F01K7/16 ,  F01K15/00 ,  F01K17/025 ,  F02C6/18 ,  F02C7/141 ,  F02C7/224 ,  F02C9/18 ,  F23K2301/204 ,  F23R3/005 ,  F23R3/28 ,  Y02E20/14 ,  Y02E20/16 ,  Y02P80/15

Abstract: A power plant includes a gas turbine including a turbine extraction port that is in fluid communication with a hot gas path of the turbine and an exhaust duct that receives exhaust gas from the turbine outlet. The power plant further includes a first gas cooler having a primary inlet fluidly coupled to the turbine extraction port, a secondary inlet fluidly coupled to a coolant supply system and an outlet in fluid communication with the exhaust duct. The first gas cooler provides a cooled combustion gas to the exhaust duct which mixes with the exhaust gas to provide an exhaust gas mixture to a heat exchanger downstream from the exhaust duct. The power plant further includes a fuel heater in fluid communication with the outlet of the first gas cooler.

公开(公告)号：US20160138483A1

公开(公告)日：2016-05-19

申请号：US14546520

申请日：2014-11-18

Applicant: General Electric Company

Inventor： Lewis Berkley Davis, JR. ,  Scott Arthur Day ,  Paul Robert Fernandez ,  Harold Lamar Jordan, JR. ,  Rex Allen Morgan

IPC: F02C9/56 ,  F02C3/107

CPC classification number: F02C9/56 ,  F02C9/42 ,  F02C9/48 ,  F05D2270/331 ,  F05D2270/335

Abstract: Various embodiments include a system having: at least one computing device configured to tune a set of gas turbines (GTs) by performing actions including: commanding each GT in the set of GTs to a base load level, based upon a measured ambient condition for each GT; commanding each GT in the set of GTs to adjust a respective output to match a nominal mega-watt power output value, and subsequently measuring an actual fuel flow value for each GT; adjusting an operating condition of each GT in the set of GTs based upon a difference between the respective measured actual fuel flow value and a nominal fuel flow value at the ambient condition; commanding each GT in the set of GTs to a part load level, the part load level representing a fraction of the base load level, and subsequently measuring an actual fuel flow value for each GT at the part load level; and calibrating the set of GTs based upon a difference between the measured actual fuel flow value at the part load level and the measured actual fuel flow value after adjusting the output to match the nominal mega-watt power output value.

Abstract translation: 各种实施例包括一种系统，其具有：至少一个计算装置，其配置成通过执行动作来调节一组燃气轮机（GT），所述动作包括：基于每个所测量的环境条件，将所述GT组中的每个GT命令为基本负载水平 GT 命令GT中的每个GT来调整相应的输出以匹配标称兆瓦功率输出值，然后测量每个GT的实际燃料流量值; 基于相应测量的实际燃料流量值和环境条件下的标称燃料流量值之间的差异来调整GT组中的每个GT的操作条件; 将GT组中的每个GT指令到零件负载水平，零件负载水平代表基本负载水平的一部分，随后在零件负载水平测量每个GT的实际燃料流量值; 并且基于在部分负载水平上测量的实际燃料流量值与调整输出之后的测量的实际燃料流量值之间的差异来校准GT的组合以匹配标称兆瓦功率输出值。

公开(公告)号：US20150159557A1

公开(公告)日：2015-06-11

申请号：US14098924

申请日：2013-12-06

Applicant: General Electric Company

Inventor： Alston IIford Scipio ,  Dale Joel Davis ,  Sanji Ekanayake ,  Paul Robert Fernandez

IPC: F02C7/30

CPC classification number: F02C7/30 ,  F01D5/288 ,  F01D25/002 ,  F01D25/007 ,  F02C6/08 ,  F05D2210/20 ,  F05D2260/95

Abstract: Methods and systems for imparting corrosion resistance to gas turbine engines are disclosed. Existing and/or supplemental piping is connected to existing compressor section air extraction piping and turbine section cooling air piping to supply water and anti-corrosion agents into areas of the gas turbine engine not ordinarily and/or directly accessible by injection of cleaning agents into the bellmouth of the turbine alone and/or repair methods. An anti-corrosion mixture is selectively supplied as an aqueous solution to the compressor and/or the turbine sections of the gas turbine engine to coat the gas turbine engine components therein with a metal passivation coating which mitigates corrosion in the gas turbine engine.

Abstract translation: 公开了赋予燃气轮机发动机耐腐蚀性的方法和系统。 现有的和/或补充的管道连接到现有的压缩机部分空气抽取管道和涡轮部分冷却空气管道，以将燃料涡轮发动机的区域中的水和防腐剂供给到通常和/或直接通过将清洁剂注入 单独的涡轮机和/或修理方法。 选择性地将抗腐蚀混合物作为水溶液供应到燃气涡轮发动机的压缩机和/或涡轮机部分，以在其中涂覆燃气涡轮发动机部件的金属钝化涂层，其减轻燃气涡轮发动机的腐蚀。

公开(公告)号：US10415432B2

公开(公告)日：2019-09-17

申请号：US14969200

申请日：2015-12-15

Applicant: General Electric Company

Inventor： Alston Ilford Scipio ,  Sanji Ekanayake ,  Joseph Philip Klosinski ,  Paul Robert Fernandez ,  David Clayton Poole

IPC: F02C7/22 ,  F02C9/18 ,  F01K23/10 ,  F01K7/16 ,  F23R3/28 ,  F23R3/00 ,  F02C6/18 ,  F02C7/141 ,  F02C7/224 ,  F01K15/00 ,  F01K17/02

Abstract: A power plant includes a gas turbine including a turbine extraction port that is in fluid communication with a hot gas path of the turbine and an exhaust duct that receives exhaust gas from the turbine outlet. The power plant further includes a first gas cooler having a primary inlet fluidly coupled to the turbine extraction port, a secondary inlet fluidly coupled to a coolant supply system and an outlet in fluid communication with the exhaust duct. The first gas cooler provides a cooled combustion gas to the exhaust duct which mixes with the exhaust gas to provide an exhaust gas mixture to a heat exchanger downstream from the exhaust duct. The power plant further includes a fuel heater in fluid communication with the outlet of the first gas cooler.

公开(公告)号：US10247110B2

公开(公告)日：2019-04-02

申请号：US14862374

申请日：2015-09-23

Applicant: General Electric Company

Inventor： Alston I. Scipio ,  David Terry Trayhan, Jr. ,  Sanji Ekanayake ,  Paul Robert Fernandez

IPC: F02C7/22 ,  F02C9/28 ,  F23K5/18 ,  F01D25/32 ,  F02C3/22 ,  F02C3/24 ,  F02C7/232 ,  F02C9/40

Abstract: A method and system for transitioning a gas turbine from burning gaseous fuel to liquid fuel and purging the liquid fuel therefrom after transfer back to the gaseous fuel are disclosed herein. The method includes pressurizing a volume of liquid fuel in an accumulator with a first volume of motive gas. A valve is opened in response to low gaseous fuel pressure in the gas turbine to permit the volume of liquid fuel to flow through a conduit to the gas turbine. A volume of flushing medium is pressurized in the accumulator with a second volume of motive gas. The valve is opened to permit at least a portion of the volume of flushing medium to flow through the conduit to flush any of the volume of liquid fuel remaining in the conduit after the gas turbine consumes the volume of liquid fuel.

公开(公告)号：US09759131B2

公开(公告)日：2017-09-12

申请号：US14098924

申请日：2013-12-06

Applicant: General Electric Company

Inventor： Alston Ilford Scipio ,  Dale Joel Davis ,  Sanji Ekanayake ,  Paul Robert Fernandez

IPC: F02C7/30 ,  F01D25/00 ,  F01D5/28 ,  F02C6/08

CPC classification number: F02C7/30 ,  F01D5/288 ,  F01D25/002 ,  F01D25/007 ,  F02C6/08 ,  F05D2210/20 ,  F05D2260/95

Abstract: Methods and systems for imparting corrosion resistance to gas turbine engines are disclosed. Existing and/or supplemental piping is connected to existing compressor section air extraction piping and turbine section cooling air piping to supply water and anti-corrosion agents into areas of the gas turbine engine not ordinarily and/or directly accessible by injection of cleaning agents into the bellmouth of the turbine alone and/or repair methods. An anti-corrosion mixture is selectively supplied as an aqueous solution to the compressor and/or the turbine sections of the gas turbine engine to coat the gas turbine engine components therein with a metal passivation coating which mitigates corrosion in the gas turbine engine.

公开(公告)号：US20170167380A1

公开(公告)日：2017-06-15

申请号：US14969118

申请日：2015-12-15

Applicant: General Electric Company

Inventor： Joseph Philip Klosinski ,  Alston Ilford Scipio ,  Sanji Ekanayake ,  Paul Robert Fernandez

IPC: F02C6/10 ,  F02C7/141 ,  F02C7/18 ,  F02C3/04

CPC classification number: F02C7/141 ,  F02C3/34 ,  F02C6/04 ,  F02C6/18 ,  F02C9/18 ,  F05D2260/213 ,  F05D2260/601 ,  F05D2270/13 ,  Y02E20/14 ,  Y02E20/16

Abstract: A power plant includes a first gas turbine and a second gas turbine. The first gas turbine includes a turbine extraction port that is in fluid communication with a hot gas path of the turbine and an exhaust duct that receives exhaust gas from the turbine outlet. The power plant further includes a first gas cooler having a primary inlet fluidly coupled to the turbine extraction port, a secondary inlet fluidly coupled to a coolant supply system and an outlet in fluid communication with the exhaust duct. The first gas cooler provides a cooled combustion gas to the exhaust duct which mixes with the exhaust gas to provide an exhaust gas mixture to a first heat exchanger downstream from the exhaust duct. At least one of a compressor and a turbine of the second gas turbine are in fluid communication with the outlet of the first gas cooler.

公开(公告)号：US20170167374A1

公开(公告)日：2017-06-15

申请号：US14969224

申请日：2015-12-15

Applicant: General Electric Company

Inventor： Joseph Philip Klosinski ,  Alston Ilford Scipio ,  Sanji Ekanayake ,  Paul Robert Fernandez

IPC: F02C3/34 ,  F02C7/141 ,  F02C7/16 ,  F02C3/13

CPC classification number: F02C3/34 ,  F02C3/13 ,  F02C6/04 ,  F02C7/141 ,  F02C7/16 ,  F05D2220/32 ,  F05D2260/211 ,  F05D2260/213 ,  F05D2260/601 ,  F05D2270/13 ,  Y02E20/14 ,  Y02E20/16

Abstract: A power plant includes a first gas turbine and a second gas turbine. The first gas turbine includes a turbine extraction port that is in fluid communication with a hot gas path of the turbine and an exhaust duct that receives exhaust gas from the turbine outlet. The power plant further includes a first gas cooler having a primary inlet fluidly coupled to the turbine extraction port, a secondary inlet fluidly coupled to a coolant supply system and an outlet in fluid communication with the exhaust duct. The first gas cooler provides a cooled combustion gas to the exhaust duct which mixes with the exhaust gas to provide an exhaust gas mixture to a first heat exchanger downstream from the exhaust duct. The first gas cooler is also in fluid communication with a combustor of the second gas turbine.