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    • 1. 发明申请
    • SYSTEM FOR CONTROLLING A COMBUSTION PROCESS FOR A GAS TURBINE
    • 用于控制燃气涡轮机燃烧过程的系统
    • US20090229238A1
    • 2009-09-17
    • US12430314
    • 2009-04-27
    • Xiao-Yi ZhangTobias SpitzmuellerStefano Bernero
    • Xiao-Yi ZhangTobias SpitzmuellerStefano Bernero
    • F02C9/00
    • F23N5/003F02C9/24F02K7/02F05D2270/082F05D2270/083F05D2270/301F23N5/16F23N2041/20F23R2900/00013
    • A system (S) for controlling nitrogen oxide (NOx) emissions and combustion pulsation levels of a gas turbine having a gas turbine combustion system, having a single combustion chamber and multiple burners, includes a cascade structure having a first and second control level (1, 2), the first level (1) having a device to control NOx emissions and generate combustion pulsation target levels based on the difference between measured and target NOx emission levels, and the second level (2) having a device to control pulsation levels and generate a ratio (γ) of fuel flow to different types of burners or to different stages of each burner. The fuel flow ratio (γ) is based on the difference between the measured and generated target pulsation levels. The control system (S) enables the operation of a gas turbine to meet NOx emission requirements, while maintaining combustion pulsation levels within limits that ensure improved lifetime of the combustion system.
    • 一种用于控制具有单个燃烧室和多个燃烧器的具有燃气轮机燃烧系统的燃气轮机的氮氧化物(NOx)排放和燃烧脉动水平的系统(S)包括具有第一和第二控制水平(1 ,2),所述第一级(1)具有基于所测量的和目标NOx排放水平之间的差异来控制NOx排放并产生燃烧脉动目标水平的装置,以及具有控制脉动水平的装置的第二水平(2) 产生不同类型燃烧器的燃料流量或每个燃烧器的不同级别的比率(γ)。 燃料流量比(γ)基于测量和产生的目标脉动水平之间的差异。 控制系统(S)使得燃气轮机的操作能够满足NOx排放要求,同时将燃烧脉动水平保持在限制范围内,以确保燃烧系统的寿命提高。
    • 2. 发明授权
    • System for controlling a combustion process for a gas turbine
    • 用于控制燃气轮机燃烧过程的系统
    • US08434311B2
    • 2013-05-07
    • US12430314
    • 2009-04-27
    • Xiao-Yi ZhangTobias SpitzmuellerStefano Bernero
    • Xiao-Yi ZhangTobias SpitzmuellerStefano Bernero
    • F02C9/28F02C9/26F02C9/00
    • F23N5/003F02C9/24F02K7/02F05D2270/082F05D2270/083F05D2270/301F23N5/16F23N2041/20F23R2900/00013
    • A system for controlling NOx emissions and combustion pulsation levels of a gas turbine having a gas turbine combustion system, having a single combustion chamber and multiple burners, includes a cascade structure having a first and second control level (1, 2), the first level (1) having a device to control NOx emissions and generate combustion pulsation target levels based on the difference between measured and target NOx emission levels, and the second level (2) having a device to control pulsation levels and generate a ratio (γ) of fuel flow to different types of burners or to different stages of each burner. The fuel flow ratio (γ) is based on the difference between the measured and generated target pulsation levels. The control system enables the operation of a gas turbine to meet NOx emission requirements, while maintaining combustion pulsation levels within limits that ensure improved lifetime of the combustion system.
    • 一种用于控制具有单个燃烧室和多个燃烧器的燃气轮机燃烧系统的燃气轮机的NOx排放和燃烧脉动水平的系统,包括具有第一和第二控制水平(1,2)的级联结构,第一级 (1)具有用于控制NOx排放的装置,并且基于测量的和目标的NOx排放水平之间的差产生燃烧脉动目标水平,以及具有控制脉动水平的装置的第二水平(2),并产生 燃料流向不同类型的燃烧器或每个燃烧器的不同阶段。 燃料流量比(γ)基于测量和产生的目标脉动水平之间的差异。 控制系统使得燃气轮机的运行能够满足NOx排放要求,同时将燃烧脉动水平保持在限制范围内,以确保燃烧系统的寿命提高。
    • 3. 发明授权
    • Method for protecting the hot gas parts of a gas turbine installation from overheating and for detecting flame extinction in the combustion chamber
    • 用于保护燃气轮机装置的热气体部件不会过热并用于检测燃烧室中的火焰熄灭的方法
    • US07930890B2
    • 2011-04-26
    • US12081692
    • 2008-04-18
    • Mengbin ZhangTobias Spitzmueller
    • Mengbin ZhangTobias Spitzmueller
    • F02C1/00
    • F01D17/08F02C9/00F05D2270/112F05D2270/301F05D2270/3015F23N5/24F23N2025/04F23N2031/06F23N2041/20
    • A method for protecting a gas turbine installation from overheating and for detecting flame extinction in the combustion chamber is described, in which air is compressed in a compressor unit and, after being admixed with fuel, is ignited in the form of a fuel/air mixture in a combustion chamber and is burnt, thus giving rise to a hot gas flow which sets a turbine stage in rotation downstream of the combustion chamber so as to perform expansion work. The pressure upstream of the turbine stage, that is the pressure pk of the compressed air in the plenum and/or the pressure within the combustion chamber pcom, is measured, in that a time change of the measured pressure, what is known as the pressure gradient ({dot over (p)}), is determined, in that at least one threshold value is selected, and in that the pressure gradient or a variable derived from the pressure gradient is compared with the at least one threshold value and, if the threshold value is overshot or undershot, a signal is generated.
    • 描述了一种用于保护燃气轮机装置免于过热并用于检测燃烧室中的火焰熄灭的方法,其中空气在压缩机单元中被压缩,并且在与燃料混合之后以燃料/空气混合物的形式点燃 在燃烧室中燃烧,从而产生热气流,其将涡轮级设置在燃烧室的下游,以进行膨胀工作。 测量涡轮机级上游的压力,即压缩空气在压力室中的压力pk和/或燃烧室pcom内的压力,其中测量的压力的时间变化是所谓的压力 确定梯度({dot over(p)}),因为选择了至少一个阈值,并且将压力梯度或从压力梯度导出的变量与至少一个阈值进行比较,如果 阈值超出或低于,产生信号。
    • 4. 发明申请
    • Method for protecting the hot gas parts of a gas turbine installation from overheating and for detecting flame extinction in the combustion chamber
    • 用于保护燃气轮机装置的热气体部件不会过热并用于检测燃烧室中的火焰熄灭的方法
    • US20080229746A1
    • 2008-09-25
    • US12081692
    • 2008-04-18
    • Mengbin ZhangTobias Spitzmueller
    • Mengbin ZhangTobias Spitzmueller
    • F01K13/02
    • F01D17/08F02C9/00F05D2270/112F05D2270/301F05D2270/3015F23N5/24F23N2025/04F23N2031/06F23N2041/20
    • A method for protecting a gas turbine installation from overheating and for detecting flame extinction in the combustion chamber is described, in which air is compressed in a compressor unit and, after being admixed with fuel, is ignited in the form of a fuel/air mixture in a combustion chamber and is burnt, thus giving rise to a hot gas flow which sets a turbine stage in rotation downstream of the combustion chamber so as to perform expansion work. The pressure upstream of the turbine stage, that is to say the pressure pk of the compressed air in the plenum and/or the pressure within the combustion chamber pcom, is measured, in that a time change of the measured pressure, what is known as the pressure gradient ({dot over (p)}), is determined, in that at least one threshold value is selected, and in that the pressure gradient or a variable derived from the pressure gradient is compared with the at least one threshold value and, if the threshold value is overshot or undershot, a signal is generated.
    • 描述了一种用于保护燃气轮机装置免于过热并用于检测燃烧室中的火焰熄灭的方法,其中空气在压缩机单元中被压缩,并且在与燃料混合之后以燃料/空气混合物的形式点燃 在燃烧室中燃烧,从而产生热气流,其将涡轮级设置在燃烧室的下游,以进行膨胀工作。 涡轮机级上游的压力,也就是压缩空气中压缩空气的压力和/或燃烧室内压力的压力分别为 测量的是,测量的压力的时间变化被称为压力梯度({dot over(p)),其中选择至少一个阈值,并且压力梯度或导出的变量 将压力梯度与至少一个阈值进行比较,并且如果阈值超出或低于该值,则产生信号。