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    • 3. 发明授权
    • Method for operating a firing plant
    • 操作燃烧装置的方法
    • US08783042B2
    • 2014-07-22
    • US13611378
    • 2012-09-12
    • Mauricio GarayGianfranco GuidatiStanka KokanovicStephan Torchalla
    • Mauricio GarayGianfranco GuidatiStanka KokanovicStephan Torchalla
    • F02C9/00F02C1/00F02C9/28F23R3/34F23N5/16F23N1/00F02C9/26
    • F23R3/34F02C9/26F23C2900/06042F23N1/002F23N5/16F23N2023/48F23N2037/02
    • A method for operating a firing plant with at least one combustion chamber and at least one burner, especially a gas turbine, includes an operating characteristic for operating the combustion chamber close to the lean extinction limit defined as a burner group staging ratio (BGVRich). Pressure pulsations (PulsActual) measured in the combustion chamber are processed by a filter device (2) and converted into corresponding signals (PulsActual,Filter(t)). An exceeding/falling short of at least one pulsation limiting value (PulsLimit) is monitored by a monitoring device (3) and adapts a pulsation reference value (PulsRef) in dependence upon the monitoring. The processed pressure pulsations (PulsActual,Filter(t)) are then compared with the adapted pulsation reference value (PulsRef,adapt), and, from this, a correction value ΔBGV is determined, by which the burner group staging ratio (BGVRich) is corrected, and as a result operation of the firing plant close to the lean extinction limit is realized.
    • 用于操作具有至少一个燃烧室和至少一个燃烧器,特别是燃气轮机的燃烧装置的方法包括用于操作燃烧室的操作特性,该燃烧室接近被定义为燃烧器组分级比(BGVRich)的稀薄消光极限。 在燃烧室中测量的压力脉动(脉搏函数)由过滤器装置(2)处理,并转换为相应的信号(脉冲函数,滤波器(t))。 超过/下降至少一个脉动限制值(PulsLimit)由监测装置(3)监测,并根据监测调整脉动参考值(PulsRef)。 然后将经处理的压力脉动(脉冲函数,滤波器(t))与适应的脉动参考值(PulsRef,适应)进行比较,并且由此确定校正值“Dgr”; BGV,由此燃烧器组分级比(BGVRich ),并且因此实现了接近稀薄消光极限的点火装置的操作。
    • 4. 发明授权
    • Gas turbine installation
    • 燃气轮机安装
    • US08117825B2
    • 2012-02-21
    • US11277779
    • 2006-03-29
    • Timothy GriffinGianfranco GuidatiHans WettsteinMajed Toqan
    • Timothy GriffinGianfranco GuidatiHans WettsteinMajed Toqan
    • F23C9/08
    • F02C3/30F01K21/047F01K23/10F02C3/34
    • A gas turbine installation (1), in particular in a power plant for generating electricity, includes a turboset (2) having a turbine (4), a compressor (5) and a combustion chamber (6) arranged in a gas path (9) connecting the compressor (5) to the turbine (4), and a flue gas recirculation device (3), which passes combustion flue gas from the turbine (4) from a flue gas path (14) connected to the turbine (4) via a recirculation path (16) to a fresh gas path (13) connected to the compressor (5). To improve the efficiency of the gas turbine installation (1), a control device (17) controls a volumetric flow and/or a temperature of the recirculated combustion flue gases in such a way that a fresh gas/flue gas mixture which enters the compressor (5) is at a predetermined desired temperature.
    • 特别是用于发电的发电厂的燃气轮机装置(1)包括具有涡轮机(4),压缩机(5)和布置在气路(9)中的燃烧室(6)的涡轮组 将所述压缩机(5)连接到所述涡轮机(4);以及烟道气再循环装置(3),其将来自所述涡轮机(4)的燃烧烟道气从与所述涡轮机(4)连接的烟道气路径(14) 通过再循环路径(16)到连接到压缩机(5)的新鲜气体通道(13)。 为了提高燃气轮机装置(1)的效率,控制装置(17)以这样的方式控制再循环燃烧烟道气的体积流量和/或温度,使得进入压缩机的新鲜气体/烟道气混合物 (5)处于预定的期望温度。
    • 6. 发明申请
    • GAS TURBINE INSTALLATION
    • 气体涡轮安装
    • US20070034171A1
    • 2007-02-15
    • US11277779
    • 2006-03-29
    • Timothy GriffinGianfranco GuidatiHans WettsteinMajed Toqan
    • Timothy GriffinGianfranco GuidatiHans WettsteinMajed Toqan
    • F22G5/00
    • F02C3/30F01K21/047F01K23/10F02C3/34
    • A gas turbine installation (1), in particular in a power plant for generating electricity, includes a turboset (2) having a turbine (4), a compressor (5) and a combustion chamber (6) arranged in a gas path (9) connecting the compressor (5) to the turbine (4), and a flue gas recirculation device (3), which passes combustion flue gas from the turbine (4) from a flue gas path (14) connected to the turbine (4) via a recirculation path (16) to a fresh gas path (13) connected to the compressor (5). To improve the efficiency of the gas turbine installation (1), a control device (17) controls a volumetric flow and/or a temperature of the recirculated combustion flue gases in such a way that a fresh gas/flue gas mixture which enters the compressor (5) is at a predetermined desired temperature.
    • 特别是在用于发电的动力装置中的燃气轮机装置(1)包括具有涡轮机(4),压缩机(5)和布置在气路(9)中的燃烧室(6)的涡轮组 将所述压缩机(5)连接到所述涡轮机(4);以及烟道气再循环装置(3),其将来自所述涡轮机(4)的燃烧烟道气从与所述涡轮机(4)连接的烟道气路径(14) 通过再循环路径(16)到连接到压缩机(5)的新鲜气体通道(13)。 为了提高燃气轮机装置(1)的效率,控制装置(17)以这样的方式控制再循环燃烧烟道气的体积流量和/或温度,使得进入压缩机的新鲜气体/烟道气混合物 (5)处于预定的期望温度。
    • 7. 发明授权
    • Low carbon emissions combined cycle power plant and process
    • 低碳排放联合循环发电厂和过程
    • US08327647B2
    • 2012-12-11
    • US12848311
    • 2010-08-02
    • Gianfranco GuidatiCamille Pedretti
    • Gianfranco GuidatiCamille Pedretti
    • F02C3/34F02C6/00F01K23/10F25J3/06
    • F02C3/34B01D2257/504F01K23/10F05D2230/50F05D2230/80Y02C10/04Y02C10/12Y02E20/16Y02E20/326
    • A low carbon emissions, combined cycle power plant utilizes vortex nozzles (38) operative at cryogenic temperatures to separate out carbon dioxide (39) from the flue gases. Complexity of the plant is minimized by operating a gas turbine engine component (10) of the plant at a turbine exhaust pressure of at least 2 bar, so that downstream components of the plant, including a heat recovery steam generator (19A), a gas cooling system (30, 33, 36), and the inlets of the vortex nozzles, all operate at the same pressure of at least two bar. To increase carbon dioxide concentration in the flue gases (37) that pass through the vortex nozzles (38), and thereby increase efficiency of carbon dioxide removal from the flue gases, up to 50% of the flue gases that exit the heat recovery steam generator (19A) may be recirculated to a location (L, FIG. 4)) in the compressor of the gas turbine engine where the pressure of the compressor air matches the flue gas pressure.
    • 低碳排放的联合循环发电厂利用在低温下操作的涡流喷嘴(38),以将二氧化碳(39)与烟道气分离出来。 通过以至少2巴的涡轮机排气压力操作设备的燃气涡轮发动机部件(10)使设备的复杂性最小化,使得设备的下游部件包括热回收蒸汽发生器(19A),气体 冷却系统(30,33,36)和涡流喷嘴的入口都以至少两个巴的相同压力进行操作。 为了增加通过涡流喷嘴(38)的烟道气(37)中的二氧化碳浓度,从而提高从废气中除去二氧化碳的效率,高达排出热回收蒸汽发生器的烟道气的50% (19A)可以再循环到燃气涡轮发动机的压缩机中的位置(L,图4)),其中压缩机空气的压力与烟气压力匹配。
    • 8. 发明申请
    • LOW CARBON EMISSIONS COMBINED CYCLE POWER PLANT AND PROCESS
    • 低碳排放组合循环发电厂和工艺
    • US20100319354A1
    • 2010-12-23
    • US12848311
    • 2010-08-02
    • Gianfranco GuidatiCamille Pedretti
    • Gianfranco GuidatiCamille Pedretti
    • F02C1/00F02C6/00
    • F02C3/34B01D2257/504F01K23/10F05D2230/50F05D2230/80Y02C10/04Y02C10/12Y02E20/16Y02E20/326
    • A low carbon emissions, combined cycle power plant utilizes vortex nozzles (38) operative at cryogenic temperatures to separate out carbon dioxide (39) from the flue gases. Complexity of the plant is minimized by operating a gas turbine engine component (10) of the plant at a turbine exhaust pressure of at least 2 bar, so that downstream components of the plant, including a heat recovery steam generator (19A), a gas cooling system (30, 33, 36), and the inlets of the vortex nozzles, all operate at the same pressure of at least two bar. To increase carbon dioxide concentration in the flue gases (37) that pass through the vortex nozzles (38), and thereby increase efficiency of carbon dioxide removal from the flue gases, up to 50% of the flue gases that exit the heat recovery steam generator (19A) may be recirculated to a location (L, FIG. 4)) in the compressor of the gas turbine engine where the pressure of the compressor air matches the flue gas pressure.
    • 低碳排放的联合循环发电厂利用在低温下操作的涡流喷嘴(38),以将二氧化碳(39)与烟道气分离出来。 通过以至少2巴的涡轮机排气压力操作设备的燃气涡轮发动机部件(10)使设备的复杂性最小化,使得设备的下游部件包括热回收蒸汽发生器(19A),气体 冷却系统(30,33,36)和涡流喷嘴的入口都以至少两个巴的相同压力进行操作。 为了增加通过涡流喷嘴(38)的烟道气(37)中的二氧化碳浓度,从而提高从废气中除去二氧化碳的效率,高达排出热回收蒸汽发生器的烟道气的50% (19A)可以再循环到燃气涡轮发动机的压缩机中的位置(L,图4)),其中压缩机空气的压力与烟气压力匹配。