Condensable gas exhibits some unusual behavior in polymer membrane compared with permanent gas.
与永久性气体相比,可凝性气体在聚合物膜中表现出一些“非常规”渗透行为。
As a condensable gas, the water vapor permeates through membranes become more complicated than non-condensable gases.
水蒸气作为一种可凝聚性气体,导致它在高分子膜中的渗透行为比其它非凝聚性气体复杂。
The Effects of the content of the non-condensable gas and the condensing pressure on the overall condensation heat transfer was tested.
通过对水平管束管间冷凝换热特性的试验研究 ,探讨并分析了冷却水流量以及不凝气体质量分数对管束冷凝换热的影响规律和机理 。
Propylene recovery at a rate above 85% from the non-condensable gas released from polypropylene plant was carried out with membrane separation technique.
应用膜分离技术,回收聚丙烯装置排空不凝气中的丙烯,回收率在85%以上。
Film condensation heat transfer characteristics are studied by numerical simulation for a single horizontal tube in the presence of a non condensable gas.
为查明不凝气体对水平管外膜状凝结换热特性的影响规律,建立了水平单管的气、液双边界层模型。
Due to its two phase two fluid hydro dynamic model with an in condensable gas field, TRAC PF1 cods is used to analyzes the transient performance of this system.
程序TRACPF 1采用了带有不可凝气体场的两相二流体非平衡态的流体动力学模型,被用于余热排出系统的分析。
In the past decades, little efforts has been done on the investigation of condensation of steam in the presence of high content non-condensable gas due to its complication.
本文利用自主设计的大空间凝结换热实验台,对水平光管和三维肋管管外高不凝性气体含量水蒸气的凝结换热性能进行了实验研究;
The vapor liquid two boundary layer model is applied to predict local mass concentration of the non condensable gas, temperature profiles and velocity profiles in the boundary layer.
该模型考虑了气、液膜之间的质量连续及能量连续特征。 对于不同的壁面过冷度,用数值方法首次求解并分析了边界层内局部不凝气体质量分数、温度和速度的分布规律。
Air and other non-condensable gas inside the water pipe will cause a lot of problems, such as noise, corrosion, hysteresis loop, and even cause a temporary interruption of the device.
给水管道内的空气及其它不凝性气体会引起很多问题,如噪音、腐蚀、循环迟滞,甚至造成设备的暂时中断。
Membrane separation processes with condensable gas such as water vapor removing from industrial gases and organic vapor recovery or separation are being developed recently and have great potential.
可凝性气体分离如有机蒸气脱除与回收、气体脱湿等是近年来气体膜分离研究和应用的热点。
Membrane separation processes with condensable gas such as water vapor removing from industrial gases and organic vapor recovery or separation are being developed recently and have great potential.
可凝性气体分离如有机蒸气脱除与回收、气体脱湿等是近年来气体膜分离研究和应用的热点。
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