计算实例表明,其他条件一定时,流体进口温度越低,流量越小,则修正值和修正系数越大。
The calculation example shows that if the inlet temperature of fluid is low and the flux is small, the amendatory value and coefficient are great when the other conditions are fixed.
当流量g发生变化时,输出压力的变化越小越好。
G when the flow changes, the output pressure changes as small as possible.
保护事故现场的时间越短,损失的交通流量就越小。
So the less time it takes to cope with an accident on the scene, the less loss of the traffic flow.
随着气体介质流量及压力的增加,所制备的不锈钢粉末粒度越小,粉末的分布更集中;
The stainless steel powder becomes finer and the size distribution is narrower with the mass flow rate and pressure of gas medium increasing.
结果表明,冷却介质流量越大,反应介质温度上升越缓慢,达到温度平衡所需时间越短,温度增量越小。
The bigger the coolant flow is, the more slowly the reactant temperature rises and the shorter the temperature balance time is and the smaller the temperature increment is.
一般输出压力越低,它随输出流量的变化波动就越小。
Generally the lower the output pressure, which changes with fluctuations in the output flow will be small.
实验结果表明:在相同曝气压力和流量下,曝气深度越大,影响半径越大,但影响区内的气流分布越稀疏;相反,曝气深度越小,则曝气影响半径越小,但在影响区内空气流线分布越密。
The result shows that with the same AS pressure and airflow rate, the greater the AS well depth, the greater the radius of influence(ROI), but the air distribution concen.
实验结果表明:在相同曝气压力和流量下,曝气深度越大,影响半径越大,但影响区内的气流分布越稀疏;相反,曝气深度越小,则曝气影响半径越小,但在影响区内空气流线分布越密。
The result shows that with the same AS pressure and airflow rate, the greater the AS well depth, the greater the radius of influence(ROI), but the air distribution concen.
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