1) flammable refrigerant
可燃性制冷剂
1.
Study on influence of test methods for determining explosion limits of flammable refrigerants;
测试方法对可燃性制冷剂爆炸极限影响的研究
2) flammable refrigerant
可燃制冷剂
1.
The explosion limit of the flammable refrigerants containing nonflammable components;
含有阻燃组元的可燃制冷剂爆炸极限的研究
2.
Theoretical and experimental study on explosion limit and inhibition of flammable refrigerants;
可燃制冷剂爆炸极限及抑制的理论与实验研究
3.
To achieve this purpose, the present authors have done detailed analyses and evaluations on how to eliminate the explosive hazards of flammable refrigerant leakage in .
结果表明 ,使用充装量很小的可燃制冷剂 ,泄漏产生爆炸的危险性很小 ,火灾隐患是主要
3) nonflammable refrigerant
不可燃制冷剂
4) flammable refrigerants
可燃制冷工质
5) 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。
6) Feasibility of suppressing combustion
燃烧抑制可行性
补充资料:制冷剂与载冷剂
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条