分析和比较了两种计算方法,这些方法已应用到燃烧室出口高温燃气温度测量中。
These methods have already been used for the gas temperature measurement at the exit of the high temperature rise combustor.
船舶燃气轮机的特点为功率大、燃气温度高、转速高、效率高,同时对尺寸、重量有严格的要求。
A Marine gas turbine is characterized with high power, high temperature, high rotating speed and high efficiency, as well as size and weight restricted by strict rules.
燃气温度传感器将检测到减压器输出燃气的温度转变为电压信号输入给ecu做为喷气修正的信号。
Gas temperature sensor transfers the gas temperature signal that out from reducer to voltage signal which will be delivered to ECU as spray correct signal.
因此,在核心机及基本发动机研制中,既要有燃气温度和转速的储备,又要有高压压气机性能的储备。
Therefore, the margin of the maximum gas temperature, rotor speed and capability of HP compressor are required during the development of core engine and baseline aero-engine.
燃气压力温度传感器安装法兰用于安装燃气温度压力传感器,安装在喷阀进气口和减压器出气口之间。
It is used for installing gas pressure & temperature sensor. It is installed between reducer outlet and injector inlet position.
在此基础上进行了喷枪内外燃气流场分析,结果表明,燃气温度分布、速度分布与实际焰流有较好的一致性。
The combustion gas flow was analyzed, the velocity and temperature distributions were calculated according to this model, the results fitted well with the actual flame.
分析了火焰筒鼓包和破裂的形成机制对燃气轮机排气温度分散度的影响,提出了相应措施,以防止因燃烧恶化对热通道部件的伤害。
The formation mechanism of bulging and cracking of combustor inner liner and his influence on gas turbine exhaust temperature dispersity was analyzed.
燃气轮机的性能与环境温度有关,其出力随燃气进气温度升高而降低的问题可通过冷却燃气进气来解决。
The performance of a gas turbine is related to environmental temperatures and its output decreases with the increase of gas inlet temperature, which can be solved by cooling the inlet gas.
分析说明了排气温度发生变化时,燃气轮发电机组的出力和热效率的变化比较显著。
The analysis shows that once the exhaust temperature changes, the changes of output and thermal efficiency for gas turbine set are significant.
燃气轮机电厂实际运行中,涡轮排气温度是一个重要的热参数,其传感器的状态直接影响到排气温度观测值。
Turbine exhaust temperature is an important thermal parameter in gas turbine power plants and its measured value is affected by sensors state.
燃气轮机的性能与环境温度有关,其出力随空气进气温度升高而降低,燃气轮机的进气冷却是增加其出力的最有效的方法。
The performance of gas turbine has relation with the environmental temperature, and its output is reduced with increase of gas inlet temperature.
燃气轮机的性能与环境温度有关,其出力随燃气进气温度升高而降低的问题可通过冷却燃气进气来解决。
The performance of gas turbine has relation with the environmental temperature and its output is reduced with increase of gas inlet temperature, which can be solved by means of cooling the inlet gas.
以大功率、高排气温度的燃气轮机为重点,讨论了联合循环中主要设备的选型原则和一些主要参数的优化设计方法。
This paper discusses the principle of main equipment selection and optimizing design of some important parameters for combined-Cycle base on heavy-duty gas turbine.
乙烯裂解炉底部燃烧器的燃气射流,使炉内烟气流动复杂,烟气温度分布的均匀性较差。
Complex patterns of flue gas and non-uniform temperature distribution along furnace height were taken place due to high jet velocity of bottom burners in the ethylene cracking furnace.
采用本发明预热温度高,热损失少,节省燃气,能耗少,能够将空气温度预热到炉温的80%以上。
The invention has the advantages of high preheating temperature, gas-saving, less heat loss and energy consumption, and the air temperature can be preheated over 80 percent of the furnace temperature.
采用本发明预热温度高,热损失少,节省燃气,能耗少,能够将空气温度预热到炉温的80%以上。
The invention has the advantages of high preheating temperature, gas-saving, less heat loss and energy consumption, and the air temperature can be preheated over 80 percent of the furnace temperature.
应用推荐