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    • 3. 发明授权
    • Method and a system to control turbine inlet temperature
    • 方法和一个控制涡轮进口温度的系统
    • US08333071B2
    • 2012-12-18
    • US12533455
    • 2009-07-31
    • Aaron John OakleyPaul Martin NiessenJason Ronald Smith
    • Aaron John OakleyPaul Martin NiessenJason Ronald Smith
    • F02B29/00F02B33/44F02D23/00
    • F02D41/1446F02B2039/164F02D41/024F02D41/1401F02D41/405F02D2041/1422F02D2250/18
    • A method and system to control an engine to maintain turbine inlet temperature utilizes two temperature thresholds: a control initiation temperature and a maximum hardware temperature. An engine parameter is adjusted in a closed-loop manner based on an error, which is a difference between a setpoint temperature and the turbine inlet temperature. The setpoint temperature is initially the control initiation temperature. However, after control over turbine inlet temperature is established, the setpoint temperature ramps gradually to maximum hardware temperature. In one embodiment, the engine parameter is engine torque. Other engine parameters affecting turbine inlet temperature include timing and duration of fuel injection pulses, EGR rate, gear selection, and intake throttle position, any of which can be used in place of, or in combination with, torque for controlling turbine inlet temperature.
    • 用于控制发动机以维持涡轮进口温度的方法和系统利用两个温度阈值:控制起始温度和最大硬件温度。 基于误差来调节发动机参数,该误差是设定点温度和涡轮进口温度之间的差值。 设定点温度最初是控制起始温度。 然而,在对涡轮机入口温度进行控制建立后,设定值温度逐渐升高到最大硬件温度。 在一个实施例中,发动机参数是发动机扭矩。 影响涡轮机入口温度的其他发动机参数包括燃料喷射脉冲的定时和持续时间,EGR率,齿轮选择和进气节气门位置,其中任何一个可用于代替用于控制涡轮机进口温度的扭矩或组合。
    • 4. 发明申请
    • METHOD AND A SYSTEM TO CONTROL TURBINE INLET TEMPERATURE
    • 方法和控制涡轮机入口温度的系统
    • US20110023478A1
    • 2011-02-03
    • US12533455
    • 2009-07-31
    • Aaron John OakleyPaul Martin NiessenJason Ronald Smith
    • Aaron John OakleyPaul Martin NiessenJason Ronald Smith
    • F02B29/04F02B33/44
    • F02D41/1446F02B2039/164F02D41/024F02D41/1401F02D41/405F02D2041/1422F02D2250/18
    • A method and system to control an engine to maintain turbine inlet temperature utilizes two temperature thresholds: a control initiation temperature and a maximum hardware temperature. An engine parameter is adjusted in a closed-loop manner based on an error, which is a difference between a setpoint temperature and the turbine inlet temperature. The setpoint temperature is initially the control initiation temperature. However, after control over turbine inlet temperature is established, the setpoint temperature ramps gradually to maximum hardware temperature. In one embodiment, the engine parameter is engine torque. Other engine parameters affecting turbine inlet temperature include timing and duration of fuel injection pulses, EGR rate, gear selection, and intake throttle position, any of which can be used in place of, or in combination with, torque for controlling turbine inlet temperature.
    • 用于控制发动机以维持涡轮进口温度的方法和系统利用两个温度阈值:控制起始温度和最大硬件温度。 基于误差来调节发动机参数,该误差是设定点温度和涡轮进口温度之间的差值。 设定点温度最初是控制起始温度。 然而,在对涡轮机入口温度进行控制建立后,设定值温度逐渐升高到最大硬件温度。 在一个实施例中,发动机参数是发动机扭矩。 影响涡轮机入口温度的其他发动机参数包括燃料喷射脉冲的定时和持续时间,EGR率,齿轮选择和进气节气门位置,其中任何一个可用于代替用于控制涡轮机进口温度的扭矩或组合。