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    • 1. 发明申请
    • Gas Turbine Protection Device
    • 燃气轮机保护装置
    • US20080276595A1
    • 2008-11-13
    • US10581194
    • 2004-11-26
    • Satoshi TanakaToshimitsu MorimotoShouichi NagataKozo Toyama
    • Satoshi TanakaToshimitsu MorimotoShouichi NagataKozo Toyama
    • F02C9/00F01D21/12
    • F01D21/12F01D21/00F02C9/00F02C9/28F05D2270/303
    • A gas turbine protection apparatus, which can output a gas turbine protection signal only when a combustor is abnormal, without increasing the number of temperature sensors such as thermocouples. For this purpose, a BPT deviation change amount large automatic stop signal is outputted when a BPT deviation change amount of any of the thermocouples exceeds a BPT deviation change amount large set value, and a BPT deviation change amount large signal is outputted from a determining section (15), and when the BPT deviation change amount of any of the thermocouples adjacent bilaterally to the any thermocouple exceeds a BPT deviation change amount present set value, and a BPT deviation change amount present signal is outputted from a determining section (16a, 16b). Alternatively, a BPT deviation great automatic stop or tripping signal is outputted when a BPT deviation of any of the thermocouples exceeds a BPT deviation great set value, and a BPT deviation great signal is outputted from a determining section, and when the BPT deviation of any of the thermocouples adjacent bilaterally to the any thermocouple exceeds a BPT deviation present set value, and a BPT deviation present signal is outputted from a determining section.
    • 一种燃气轮机保护装置,其仅在燃烧器异常时才能输出燃气轮机保护信号,而不增加诸如热电偶的温度传感器的数量。 为此,当任何热电偶的BPT偏差变化量超过BPT偏差变化量大的设定值时,输出BPT偏差变化量大的自动停止信号,从判定部输出BPT偏差变化量大信号 (15),并且当与任何热电偶的双侧相邻的任何热电偶的BPT偏差变化量超过BPT偏差变化量当前设定值,并且从判定部(16a)输出BPT偏差变化量当前信号时, 16 b)。 或者,当任何热电偶的BPT偏差超过BPT偏差大设定值,并且从判定部输出BPT偏差大信号时,输出BPT偏差大的自动停止或跳闸信号,并且当任何 与双向热电偶相邻的热电偶超过BPT偏差当前设定值,并且从确定部输出BPT偏离当前信号。
    • 2. 发明授权
    • Gas turbine protection device
    • 燃气轮机保护装置
    • US07757474B2
    • 2010-07-20
    • US10581194
    • 2004-11-26
    • Satoshi TanakaToshimitsu MorimotoShouichi NagataKozo Toyama
    • Satoshi TanakaToshimitsu MorimotoShouichi NagataKozo Toyama
    • F02G3/00
    • F01D21/12F01D21/00F02C9/00F02C9/28F05D2270/303
    • A gas turbine has a plurality of combustors in a toroidal arrangement to provide combustion gases to turbine blades, thereby rotating the turbine body. Thermocouples, the number of which is the same as or greater than the number of the combustors, are arranged toroidally at the outlets of the turbine blades and measure the temperatures of the combustion gases at the respective outlets. During the operation of the gas turbine, if an abnormality, such as misfire or fuel injection nozzle obstruction, occurs in one or more of the combustors, the resulting change in gas temperature triggers a signal to stop, and thereby protect the gas turbine. Based on the measured values of the blade pass temperatures of the thermocouples and set threshold temperatures, a fuel supply system may be caused to gradually decrease the fuel supplied to the combustors to bring the gas turbine body to an automatic stop, or it may be cut off instantaneously, thus immediately stopping the gas turbine.
    • 燃气轮机具有环形布置的多个燃烧器,以向涡轮机叶片提供燃烧气体,从而使涡轮机体旋转。 其数量等于或大于燃烧器的数量的热电偶在涡轮机叶片的出口处环形地布置,并且测量各个出口处的燃烧气体的温度。 在燃气轮机的运转中,如果在一个或多个燃烧器中发生诸如失火或燃料喷射喷嘴堵塞的异常,则由此导致气体温度的变化触发信号停止,从而保护燃气轮机。 基于热电偶的叶片通过温度的测量值和设定的阈值温度,可以引起燃料供应系统逐渐减少供应到燃烧器的燃料以使燃气轮机主体自动停止,或者可以切断 从而立即停止燃气轮机。
    • 3. 发明授权
    • Gas turbine load control device
    • 燃气轮机负载控制装置
    • US07600369B2
    • 2009-10-13
    • US11643961
    • 2006-12-22
    • Satoshi TanakaToshimitsu MorimotoToshiyuki Hashi
    • Satoshi TanakaToshimitsu MorimotoToshiyuki Hashi
    • F02C9/26
    • F02C9/263F05D2220/32F05D2270/052F05D2270/061
    • A gas turbine load control device includes load setting means, first bias setting means, second bias setting means, target output setting means, and so forth. The target output setting means sets up a target output by adding a positive side bias value to a load set value when the load setting means gradually increases the load set value in response to an increase in a requested load set value inputted from requested load setting means. The target output setting means sets up the target output by subtracting a negative side bias value from the load set value when the load setting means gradually decreases the load set value in response to a decrease in the requested load set value.
    • 燃气轮机负载控制装置包括负载设定装置,第一偏置设定装置,第二偏置设定装置,目标输出设定装置等。 目标输出设定装置通过在负载设定装置响应于从请求的负载设定装置输入的所请求的负载设定值的增加而逐渐增加负载设定值而将正侧偏置值与负载设定值相加来设定目标输出 。 目标输出设定装置通过从负载设定值减去负侧偏置值来设定目标输出,当负载设定装置响应于所请求的负载设定值的减小而逐渐减小负载设定值时。
    • 6. 发明授权
    • Fuel gas heating control equipment and gas turbine power generation facility provided with the fuel gas heating control equipment
    • 配有燃气加热控制设备的燃气加热控制设备和燃气轮机发电设备
    • US07565792B2
    • 2009-07-28
    • US11294542
    • 2005-12-06
    • Satoshi TanakaToshimitsu Morimoto
    • Satoshi TanakaToshimitsu Morimoto
    • F02C9/00F02G3/00
    • F02C7/185F02C7/224
    • A fuel gas heating control equipment in accordance with the present invention is provided with a gain-determining portion 21 and a time-constant-determining portion 22 which determine values of a gain and a time constant to be used for PI calculations being performed by a PI calculation portion 14. The gain-determining portion 21 specifies a small time constant for the PI calculation portion 14 during load fluctuations when the generator output increases, and specifies a large time constant for the PI calculation portion 14 when the generator output reaches the maximum output. In consequence, during load fluctuations, responsiveness is good and a rapid change in temperature can be followed, so that a fuel gas temperature will not fluctuate in response to a slight change in temperature at the maximum output, thereby achieving a stable fuel gas temperature.
    • 根据本发明的燃料气体加热控制设备设置有增益确定部分21和时间常数确定部分22,其确定用于PI计算的增益值和时间常数值 PI计算部分14.当发电机输出增加时,增益确定部分21在负载波动期间为PI计算部分14指定小的时间常数,并且当发电机输出达到最大值时为PI计算部分14指定大的时间常数 输出。 因此,在负载波动期间,响应性良好,可以跟随温度的快速变化,使得燃料气体温度不会随着最大输出端的温度轻微变化而波动,从而达到稳定的燃料气体温度。
    • 8. 发明授权
    • Electronic device, computer readable medium, and help display method
    • 电子设备,计算机可读介质和帮助显示方法
    • US08739036B2
    • 2014-05-27
    • US12496058
    • 2009-07-01
    • Toshimitsu Morimoto
    • Toshimitsu Morimoto
    • G06F3/00
    • G06F3/04842G06F9/453
    • An electronic device comprising: a display unit configured to display a setting menu; an operation unit configured to receive an operation from a user; an operation detection unit configured to detects the operation received by the operation unit; a timer unit configured to measure an elapsed time that has elapsed since a start operation relating to a setting of a given function received by the operation unit is detected by the operation detection unit; and a help display processing unit configured to cause the display unit to display help information thereon when an end operation relating to the given function to the operation unit has not been detected by the operation detection unit before the elapsed time measured by the timer unit reaches a predetermined time.
    • 一种电子设备,包括:显示单元,被配置为显示设置菜单; 被配置为从用户接收操作的操作单元; 操作检测单元,被配置为检测由所述操作单元接收的操作; 由操作检测单元检测被配置为测量与由操作单元接收到的给定功能的设置相关的开始操作所经过的经过时间的定时器单元; 以及帮助显示处理单元,其被配置为当在由所述定时器单元测量的经过时间到达所述操作检测单元之前,当与所述操作单元相关的所述给定功能的结束操作未被检测到时,使所述显示单元显示帮助信息 预定时间