通过选用合适的热力学模型,模拟计算了不同种类的冷凝介质,不同组成分率对聚合体系物性的影响。
With a suitable thermodynamics model, a simulation was taken to investigate the effects of various fraction of various inert medium on the heat properties of polymerization system.
冷凝器是放出热量的设备,将蒸发器中吸收的热量连同压缩机输入功率转化的热量一起传递给冷却介质(如水或空气)带走。
The condenser is a heat equipment, the evaporator absorbs heat with heat input power of compressor transformation with the transfer of the cooling medium ( such as water or air ).
对其精馏管长度、回收冷凝液体积、吸收介质等影响富集效果的关键因素进行了优化。
The main operating parameters of this device such as length of distillation tube, volume of collected condensate, and choice of adsorption media were optimized.
高压气态制冷剂在冷凝器中向冷却介质放热被凝结为液态后,经节流装置减压降温进入蒸发器;
High pressure gas refrigerants in the condenser cooling medium heat to be setting for liquid, through the throttle device reduced pressure cooling into the evaporator;
铸轧区金属(液态金属、粘糊状金属和冷凝壳)的流动为非均匀介质流动。
The flow of metal in cast rolling area (liquid metal, sticky metal and solid shell) is an uneven medium flow.
可更经济合理地用单台换热实现管程水蒸汽的冷凝及其凝结水的冷却、壳程介质被加热的换热过程。
By using this method, the process of the condensation of the vapor, the cooling of the condensed water and the heating of the content at shell side can be…
此工艺以热氮气作为解吸介质,富集后的解吸气通过冷凝或吸收方式加以回收,实现污染物零排放。
The technique USES hot nitrogen as desorption medium, and recovers the enriched desorption gas in a cooling or absorption manner, thereby realizing zero-release of pollution.
这是一种管壳式换热器,可用于蒸发、加热、冷凝、冷却等工艺,由介质的物理、化学和腐蚀等性能来选择适宜的材料制作。
It is of pipe type used for evaporation, heating, condensing, cooling operations, Materials for this unit are optional as per the physical, chemical and corrosive properties.
由于介质原因造成腐蚀,使一台丙烯冷凝器管板上大面积的管口焊缝失效发生泄漏。
Because of condenser caused by mediums, leakage occurred in the large-area welding between pipe connect of a C_3H_6 condenser tube sheet.
由于介质原因造成腐蚀,使一台丙烯冷凝器管板上大面积的管口焊缝失效发生泄漏。
Because of condenser caused by mediums, leakage occurred in the large-area welding between pipe connect of a C_3H_6 condenser tube sheet.
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