公开(公告)号：US20180238215A1

公开(公告)日：2018-08-23

申请号：US15437794

申请日：2017-02-21

Applicant: General Electric Company

Inventor： Parag Prakash Kulkarni ,  Naresh Kumar Amineni ,  Lewis Berkley Davis, JR. ,  Gordon Raymond Smith

IPC: F01N3/021 ,  F01D25/30 ,  F02C6/18 ,  F01K7/16 ,  F01K23/10 ,  F01N3/035 ,  F01N3/20

CPC classification number: F01N3/0211 ,  F01D25/305 ,  F01K7/16 ,  F01K23/10 ,  F01N3/035 ,  F01N3/2066 ,  F01N2250/02 ,  F01N2570/10 ,  F02C6/18 ,  F05D2220/32 ,  F05D2220/72 ,  F05D2270/08 ,  Y02E20/16 ,  Y02T10/24

Abstract: Embodiments of emission reduction system including various embodiments of an emission filters for a power plant including a gas turbine are disclosed. The system includes: an emission filter; and a retraction system operably coupled to an exhaust passage of the gas turbine. The exhaust passage defines an exhaust path of exhaust from the gas turbine. The retraction system selectively moves the emission filter between a first location within the exhaust path and a second location out of the exhaust path. In a combined cycle power plant, the first location is upstream of a heat recovery steam generator (HRSG). The systems and filters described allow for temporary positioning of emission filter(s) just downstream of a gas turbine exhaust outlet, or upstream of an HRSG, where provided, for emission reduction at low loads or startup conditions, and removal of the emission filter(s) once operations move to higher loads.

公开(公告)号：US20180238213A1

公开(公告)日：2018-08-23

申请号：US15437780

申请日：2017-02-21

Applicant: General Electric Company

Inventor： Parag Prakash Kulkarni ,  Lewis Berkley Davis, JR. ,  Raymond Pang ,  Gordon Raymond Smith

IPC: F01N3/021 ,  F01D25/30 ,  F02C6/18 ,  F01N3/035 ,  F01N3/20 ,  F01K7/16 ,  F01K23/10

CPC classification number: F01N3/0211 ,  F01D25/305 ,  F01K7/18 ,  F01K23/10 ,  F01K23/103 ,  F01K23/106 ,  F01N3/0215 ,  F01N3/0226 ,  F01N3/035 ,  F01N3/2066 ,  F01N2250/02 ,  F01N2410/02 ,  F01N2410/03 ,  F01N2410/10 ,  F01N2610/02 ,  F01N2610/1453 ,  F01N2900/1404 ,  F02C6/18 ,  F02C7/26 ,  F02C9/28 ,  F05D2220/32 ,  F05D2220/72 ,  F05D2270/082 ,  Y02E20/16 ,  Y02T10/24

Abstract: Embodiments of emission reduction system including various embodiments of an emission filters for a power plant including a gas turbine are disclosed. The system includes: an emission filter; and a retraction system operably coupled to an exhaust passage of the gas turbine. The exhaust passage defines an exhaust path of exhaust from the gas turbine. The retraction system selectively moves the emission filter between a first location within the exhaust path and a second location out of the exhaust path. In a combined cycle power plant, the first location is upstream of a heat recovery steam generator (HRSG). The systems and filters described allow for temporary positioning of emission filter(s) just downstream of a gas turbine exhaust outlet, or upstream of an HRSG, where provided, for emission reduction at low loads or startup conditions, and removal of the emission filter(s) once operations move to higher loads.

公开(公告)号：US20170176960A1

公开(公告)日：2017-06-22

申请号：US14971690

申请日：2015-12-16

Applicant: General Electric Company

Inventor： Lewis Berkley Davis, JR. ,  Scott Arthur Day ,  Timothy Andrew Healy ,  Rebecca Kathryn Jaiven ,  Harold Lamar Jordan, JR. ,  Rex Allen Morgan

IPC: G05B13/04 ,  G05B19/042 ,  F02C9/28

CPC classification number: F02C9/42 ,  F02C9/00 ,  F02C9/28 ,  F05D2220/32 ,  F05D2270/082 ,  F05D2270/71 ,  G05B13/048 ,  G05B19/0428 ,  G05B2219/39407

Abstract: Commanding GTs to base load level based upon measured ambient condition for each GT; commanding each GT to adjust a power output to match scaled power output value equal to a fraction of a difference between the respective power output and a nominal power output value, and measuring actual emissions value for each GT during the adjusting of the respective power output; adjusting operating condition of each GT based upon a difference between the respective measured actual emissions value, a nominal emissions value at the ambient condition and emissions scale factor; updating a pre-existing emissions model for each GT based upon the adjusted operating; running set of operating conditions on each GT and measuring updated parameters for each GT including an updated emissions value; and refining updated pre-existing emissions model based upon a difference between the updated emissions value and the updated pre-existing emissions model.

公开(公告)号：US20170175651A1

公开(公告)日：2017-06-22

申请号：US14971710

申请日：2015-12-16

Applicant: General Electric Company

Inventor： Lewis Berkley Davis, JR. ,  Scott Arthur Day ,  Timothy Andrew Healy ,  Harold Lamar Jordan, JR. ,  Rex Allen Morgan

IPC: F02C9/52 ,  G05B15/02

CPC classification number: F02C9/52 ,  F02C9/28 ,  F05D2260/821 ,  F05D2270/08 ,  F05D2270/082 ,  F05D2270/13 ,  F05D2270/44 ,  F05D2270/71 ,  G05B13/041 ,  G05B15/02

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 power output to match a nominal power output value, and subsequently measuring an actual emissions 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 emissions value and a nominal emissions value at the ambient condition; and building an independent emissions model for each GT based upon the measured actual emissions value for each GT and the adjusted operating condition of each GT.

公开(公告)号：US20160376960A1

公开(公告)日：2016-12-29

申请号：US14753105

申请日：2015-06-29

Applicant: General Electric Company

Inventor： Robert Joseph Reed ,  Lewis Berkley Davis, JR. ,  Parag Prakash Kulkarni

IPC: F01N3/05 ,  F01N3/20 ,  F02C7/141 ,  F02C3/30

CPC classification number: F01N3/05 ,  F01N3/2066 ,  F02C6/08 ,  F02C6/18 ,  F05D2220/72 ,  F05D2260/606 ,  Y02E20/14 ,  Y02E20/16

Abstract: An airflow control system for a combined cycle turbomachine system in accordance with an embodiment includes: an airflow generation system for attachment to a rotatable shaft of a gas turbine system, the airflow generation system drawing in an excess flow of air through an air intake section; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; an air extraction system for extracting a first portion of the excess flow of air to provide bypass air, and for diverting the bypass air into the mixing area to reduce a temperature of the exhaust gas stream; and an airflow regulation system for diverting a second portion of the excess flow of air into the compressor component and, in response to an under-frequency grid event, for increasing the second portion of the excess flow of air diverted into the compressor component.

Abstract translation: 根据实施例的用于组合循环涡轮机系统的气流控制系统包括：用于附接到燃气轮机系统的可旋转轴的气流产生系统，所述气流产生系统通过进气部分抽吸空气过量; 用于接收由所述燃气轮机系统产生的废气流的混合区域; 空气提取系统，用于提取多余空气的第一部分以提供旁路空气，以及用于将旁路空气转移到混合区域中以降低排气流的温度; 以及气流调节系统，用于将过量空气的第二部分转移到压缩机部件中，并且响应于低频电网事件，用于增加转移到压缩机部件中的空气的过量流的第二部分。

公开(公告)号：US20160376959A1

公开(公告)日：2016-12-29

申请号：US14753102

申请日：2015-06-29

Applicant: GENERAL ELECTRIC COMPANY

Inventor： Lewis Berkley Davis, JR. ,  Parag Prakash Kulkarni ,  Robert Joseph Reed

IPC: F01N3/05 ,  F01N3/20 ,  F02C3/10

CPC classification number: F01N3/05 ,  F01D25/30 ,  F01N3/2066 ,  F02C6/08 ,  F02C6/18 ,  F02C7/18 ,  F02K1/386 ,  F02K3/06 ,  F05D2220/72 ,  F05D2260/606 ,  Y02E20/14 ,  Y02E20/16

Abstract: An airflow control system for a combined cycle turbomachine system according to an embodiment includes: an airflow generation system for attachment to a rotatable shaft of a gas turbine system, the airflow generation system drawing in an excess flow of air through an air intake section; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; an air extraction system for extracting a first portion of the excess flow of air to provide bypass air, and for diverting the bypass air into the mixing area to reduce a temperature of the exhaust gas stream; diverting a second portion of the excess flow of air into the compressor component; and in response to an increase in a temperature of the air, increasing the second portion of the excess flow of air diverted into the compressor component.

Abstract translation: 根据实施例的用于联合循环涡轮机系统的气流控制系统包括：用于附接到燃气轮机系统的可旋转轴的气流产生系统，所述气流产生系统通过进气部分抽吸空气过量; 用于接收由所述燃气轮机系统产生的废气流的混合区域; 空气提取系统，用于提取多余空气的第一部分以提供旁路空气，以及用于将旁路空气转移到混合区域中以降低排气流的温度; 将过量空气流的第二部分转移到压缩机部件中; 并且响应于空气的温度的升高，增加了分流到压缩机部件中的空气的过量流的第二部分。

公开(公告)号：US20160376954A1

公开(公告)日：2016-12-29

申请号：US14753064

申请日：2015-06-29

Applicant: General Electric Company

Inventor： Lewis Berkley Davis, JR. ,  Gilbert Otto Kraemer ,  Parag Prakash Kulkarni ,  Hua Zhang

IPC: F01N3/04 ,  F01N3/20 ,  F01D15/10 ,  F02C7/141 ,  F02C7/16 ,  F01N3/10 ,  F02C3/04

CPC classification number: F01N3/04 ,  F01D15/10 ,  F01D25/305 ,  F01N3/103 ,  F01N3/2066 ,  F01N2590/10 ,  F01N2610/02 ,  F01N2610/08 ,  F02C3/04 ,  F02C3/30 ,  F02C7/141 ,  F02C7/16 ,  F05D2220/32 ,  F05D2220/76 ,  F05D2240/24 ,  F05D2240/35 ,  F05D2240/60 ,  F05D2260/212 ,  F05D2270/082 ,  Y02T10/24

Abstract: A turbomachine system according to an embodiment includes: a gas turbine system including a compressor component, a combustor component, and a turbine component; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; a fluid injection system for injecting a fluid into the mixing area to reduce a temperature of the exhaust gas stream; and an exhaust processing system for processing the reduced temperature exhaust gas stream.

Abstract translation: 根据实施例的涡轮机系统包括：包括压缩机部件，燃烧器部件和涡轮机部件的燃气轮机系统; 用于接收由所述燃气轮机系统产生的废气流的混合区域; 用于将流体注入混合区域以降低排气流的温度的流体注入系统; 以及用于处理降温废气流的废气处理系统。

公开(公告)号：US20160376909A1

公开(公告)日：2016-12-29

申请号：US14753093

申请日：2015-06-29

Applicant: General Electric Company

Inventor： Parag Prakash Kulkarni ,  Lewis Berkley Davis, JR. ,  Robert Joseph Reed

IPC: F01D15/10 ,  F02C3/04 ,  F01K25/14 ,  F02C7/04 ,  F02C7/18 ,  F02C9/18 ,  H02K7/18 ,  F02C6/18

CPC classification number: F01K25/14 ,  F01D25/30 ,  F01K23/103 ,  F02C6/18 ,  F02C7/18 ,  F02C9/18 ,  F02K1/386 ,  F02K3/06 ,  F05D2260/606 ,  H02K7/1823 ,  Y02E20/14 ,  Y02E20/16

Abstract: An airflow control system for a combined cycle power generation system according to an embodiment includes: airflow control system for a combined cycle power generation system, comprising: an airflow generation system for attachment to a rotatable shaft of a gas turbine system, the airflow generation system drawing in an excess flow of air through an air intake section; a mixing area for receiving an exhaust gas stream produced by the gas turbine system; and an air extraction system for extracting at least a portion of an excess flow of air generated by the airflow generation system to provide bypass air, and for diverting the bypass air into the mixing area to reduce a temperature of the exhaust gas stream; wherein the reduced temperature exhaust gas stream is provided to a heat recovery steam generator.

Abstract translation: 根据实施例的联合循环发电系统的气流控制系统包括：用于组合循环发电系统的气流控制系统，包括：用于附接到燃气轮机系统的可旋转轴的气流产生系统，所述气流发生系统 通过进气部分吸入空气过量; 用于接收由所述燃气轮机系统产生的废气流的混合区域; 以及空气提取系统，用于提取由所述气流发生系统产生的过量空气的至少一部分以提供旁路空气，并用于将所述旁路空气转移到所述混合区域中以降低所述排气流的温度; 其中所述降低的废气流被提供给热回收蒸汽发生器。

公开(公告)号：US20160305344A1

公开(公告)日：2016-10-20

申请号：US14686201

申请日：2015-04-14

Applicant: General Electric Company

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

IPC: F02C9/28 ,  F01D21/14 ,  F01D21/00

CPC classification number: F02C9/28 ,  F05D2260/12 ,  F05D2260/81 ,  F05D2260/83

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 fuel flow value to match a nominal fuel flow value, and subsequently measuring an actual exhaust energy value for each GT; and adjusting an operating condition of each GT in the set of GTs based upon a difference between the respective measured actual exhaust energy value and a nominal exhaust energy value at the ambient condition.

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 指挥GT组中的每个GT以调整相应的燃料流量值以匹配标称燃料流量值，然后测量每个GT的实际排气能量值; 并且基于各个测量的实际排气能量值和在环境条件下的标称排气能量值之间的差异来调整GT组中的每个GT的操作条件。

公开(公告)号：US20160305342A1

公开(公告)日：2016-10-20

申请号：US14686157

申请日：2015-04-14

Applicant: General Electric Company

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

IPC: F02C9/28 ,  F01D21/14 ,  F01D17/02

CPC classification number: F02C9/28 ,  F05D2260/12 ,  F05D2260/81 ,  F05D2260/83 ,  F05D2270/31 ,  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 fuel flow to match a nominal fuel flow value, and subsequently measuring an actual power output value for each GT; and adjusting an operating condition of each GT in the set of GTs based upon a difference between the respective measured actual power output value and a nominal power output value at the ambient condition.

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 指挥GT集合中的每个GT以调整相应的燃料流量以匹配标称燃料流量值，随后测量每个GT的实际功率输出值; 并且基于各个测量的实际功率输出值和在环境条件下的标称功率输出值之间的差异来调整GT组中的每个GT的操作条件。