1) refrigerant hydrate
制冷剂水合物
1.
Research progress of refrigerant hydrate growth property with technology of nano;
纳米技术在制冷剂水合物生长特性中的研究进展
2.
Influencing mechanism of ultrasonic on refrigerant hydrate nucleation and growth was first analyzed and then experimental study was made.
首先分析了超声波对制冷剂水合物成核生长的影响机理,然后进行了实验研究。
3.
Phase equilibrium model of refrigerant hydrate in nano-fluids was developed to study the effects of nano-particles on formation conditions of refrigerant hydrate.
为了研究纳米粒子对制冷剂水合物热力学生成条件的影响,建立了新型纳米流体中制冷剂水合物相平衡热力学模型,理论研究了HFC134a(R134a)气体水合物的热力学生成条件,并用实验验证了模拟结果。
3) water as refrigerant
水制冷剂
4) hydrate inhibitor
水合物抑制剂
1.
We summarized the mechanism and prevention of the hydrate formation, and introduced especially the hydrate inhibitor used in water - base drilling mud.
综述了天然气水合物的形成机理及其防治方法,着重介绍了用于水基钻井液的水合物抑制剂,因为其用量少、效率高而被广泛开发和应用。
2.
A cooling method to inject hydrate inhibitor should be adopted for associated gas and condensate gas to simultaneously meet the demands for water and hydrocarbon dewpoint in pipeline transportation.
认为对油田伴生气和凝析天然气宜采用注入水合物抑制剂的温降法,以同时满足在管输条件下对水露点和烃露点的要求;对不需要脱烃的气层天然气和经液体脱硫后的净化天然气,则宜采用三甘醇溶液吸收脱水的方法,以满足在管输条件下对水露点的要求。
5) chlorofluorocarbon refrigerant
氯氟碳化合物制冷剂 CR
6) physical properties
制冷剂物性
1.
Visualization of refrigerant physical properties computation;
制冷剂物性计算可视化的实现
2.
Based on the refrigerant physical properties function,the physical properties computation is visualized,and a convenient and effective tool for the thermodynamics computation and analyse of refrigeration cycle is supplied.
简要介绍了VC++调用Fortran与Matlab混合编程的基本原理,以制冷剂物性方程作为程序计算的基础,实现了制冷剂物性计算的可视化,为制冷剂的热力计算及分析提供了方便、快捷的图形计算工具。
3.
With refrigerant physical properties data graph to compute physical properties is tedious, time-consuming,and error-large.
借助制冷剂物性数据图表,计算制冷剂物性,繁琐,费时,误差大。
补充资料:制冷剂与载冷剂






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