进气温度对离心鼓风机实际运行工况有较大影响。
The temperature of air entered from outside gives enormous influence to the actual operational condition of blower.
填料层湿度随废气进气温度升高,以指数方式减小。
As the inlet gas temperature increases, the moisture in the packings decreases exponentially.
采取进、排气管隔热措施,降低进气温度来提高进气充量。
Adopt measure to prevent the heat transmit between intake pipe and exhaust pipe, lower the intake air temperature to increase volumetric efficiency.
实验考虑了进气速度、进气温度对贫油熄火油气比的影响。
The effects of inlet temperature and inlet velocity were taken into account.
结果表明,提高进气温度有利于减少冷起动阶段的HC、CO排放。
The testing results showed that increasing the intake temperature was favorable to the decrease of HC and CO emissions.
分析了进气温度、燃空当量比、压缩比、CO2对燃烧和排放的影响。
The influences of the intake charge temperature, fuel air equivalence ratio, compression ratio, CO2 to combustion and pollution are studied.
提高进气温度和加大点火能量也是降低冷起动下HC排放的可用措施。
Also, enhancing the intake air temperature and ignition energy are the feasible approach to reducing the cold-start HC emissions.
而发动机转速对自燃所需进气温度的影响则随所用燃料辛烷值的大小而异。
While the effect of engine speed on the required inlet air temperature for autoignition is different for different octane Numbers.
而压缩比,燃空当量比,进气温度的变化会引起燃料着火时刻的显著变化。
The changes of the compression ratio, equivalence ratio, and initial temperature will bring on distinct change of the ignition of combustion.
进气温度提高后,混合气均匀性得到改善,喷油策略对燃烧过程影响作用减小。
When the intake temperature is increased, the fuel distribution becomes more homogenous, the effects of different port injection strategies on combustion process become small.
可以看出,如果在发动机的进气温度较高,环境压力低于标准的条件下,输出功率的影响将降低。
It can be seen that if the engine air inlet temperature is higher and the ambient pressure is lower than the standard conditions, the power output of the effects will be lower.
对不同的进气温度、燃料辛烷值和燃空当量比对均质压燃(HCCI)发动机的排放特性进行了研究。
The HCCI engine emissions characteristic is studied by different temperature and different fuel octane number.
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.
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.
进气温度传感器检测发动机的进气温度,将进气温度转变为电压信号输入给ECU做为喷气修正的信号。
This temperature sensor detects the engine intake air temperature, and transforms it to voltage signal which is delivered to ECU as spray correctional signal.
提高进气压力由于进气温度的影响使滞燃期缩短,大EGR率尤其明显,导致碳烟峰值随进气压力升高而增大。
The ignition delay was shortened by increase intake pressure due to higher intake temperature, which resulted in higher smoke, and this phenomenon was more obvious at high EGR rate situation.
天然气供给方式,主副燃烧室通道直径和进气温度对压缩着火天然气发动机起动,燃烧和排放的影响也作了研究。
The effect of the natural gas supply method, passage diameter and heated temperature of intake air on the ignition, combustion and emission are studied.
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.
结果表明:利用水蒸发吸收空气热量,起到降低进气温度的作用,简化了增压柴油机的进气系统,提高了工作可靠性,减少了维护工作量。
The evaporate-cooling equipment simplifies the intake charge system of turbocharged diesel engine, which enhances the working reliability and reduces the maintenance work intensity.
采用国际通用标准对压缩机气体组成、容积流量、轴功率、进排气压力和进排气温度等指标进行了测定。
Gas composition, volume flow rate, axial power, pressure and temperature of inlet and discharge gases of the compressor have been evaluated with the international general standard.
在上面所给出P 0442示例中,燃油箱液面位置,进气空气温度和歧管绝对压力传感器将被应用。
In the P0442 example above, the fuel level, intake air temperature and manifold absolute pressure sensors are used.
分析了湿蒸气进气干度及水滴微粒直径对排气温度、排气压力和压缩功率的影响。
The influence of the dry degree of wet steam and water droplet diameter on the discharge temperature and compression power is discussed.
分析了湿蒸气进气干度及水滴微粒直径对排气温度、排气压力和压缩功率的影响。
The influence of the dry degree of wet steam and water droplet diameter on the discharge temperature and compression power is discussed.
应用推荐