降低挥发物的出口温度,可以降低焦油和气体收率。
The yield of both tar and gas is decreased with the decrease of exhausting temperature of liberated matter.
所提出的出口气体温度稳定器具有很好的稳定性能,既保护了阀门,又保证了吸收塔的正常操作。
The exit temperature buffer protected the valves and ensured the normal operation of absorption tower as well.
再生器压力、沉降器压力和提升管反应器出口温度均被控制,原料处理量提高后,气体、汽油和焦炭产率均下降。
Under control of the outlet temperature and the pressures, the increase of feed throughput will cause the decrease of gas, gasoline and coke produced in reaction.
结果表明:适当降低流过蓄热体的气体流速,缩短四通换向阀的切换时间,可降低烟气的出口温度,提高系统的余热回收率。
Result shows that decreasing fluid rate and shortening switching time can decrease the temperature of the exhaust gas and increase the recovery rate of waste heat.
由于达到平衡很快,故测定床层出口处的气体和固体温度差是不实际的。
Because of this rapid attainment of equilibrium it is not practical to measure the temperature difference between gas and solid at the bed exit.
常规跨临界二氧化碳空调循环的性能系数对气体冷却器出口工质温度十分敏感,该温度越低,同等条件下性能越好。
The COP of conventional trans critical carbon dioxide air conditioning cycle depends strongly on the working fluid temperature at the gas cooler outlet.
航空发动机控制系统半物理模拟试验中,涡轮出口气体温度高、变化快,难以模拟。
In the matter - in - loop simulation experiment of aero - engine control system, the turbine outlet temperature, which characteristics with high and quick change , is hard to be simulated.
结果表明,气体冷却器出口温度、过热度和膨胀机效率对最优高压压力的影响较为明显。
It is illustrated that discharge temperature of gas cooler, efficiency of expander and degree of superheat at the inlet of compressor can exert more influence on the optimum high pressure.
随着进入氧化床的乏风气体表观速度的增加,压强损失和出口温度都增加;
With the increase of coal mine methane superficie velocity, pressure loss and outlet temperature of the oxidation bed increase.
实验结果表明,系统运行时的最大制冷(热)系数取决于系统的蒸发温度和气体冷却器出口温度。
Results from the experiment show that there exists a maximum coefficient of performance and it depends on the evaporation temperature and outlet temperature of the gas cooler.
实验结果表明,系统运行时的最大制冷(热)系数取决于系统的蒸发温度和气体冷却器出口温度。
Results from the experiment show that there exists a maximum coefficient of performance and it depends on the evaporation temperature and outlet temperature of the gas cooler.
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