在现实中,人类和动物,并不总是不停的得到强化,但实际上强化则是根据不同的时程出现的。
Real life for both humans and animals involved cases where the reinforcement doesn't happen all the time but actually happens according to different schedules.
各种操作条件只有影响到管程的温度边界层或壳程的冷凝液膜层和气-汽扩散层,才能强化或恶化传热过程。
When various manipulations disturb the thermal boundary layer inside or the condensate film and gas-vapor diffusion layer outside, the heat transfer effect will be better or be worse off.
本文通过壳程和管程两方面进行强化传热,来研究与开发新型高效换热器。
Through reinforcing heat transfer by changing monitor and shell, research and development of new high-activity heat exchanger were made.
折流杆换热器壳程结构复杂,用理论方法难以获得壳程流体流动和强化传热机理。
The shell side of the rod baffle heat exchanger is so complicated that the flow field and enhanced heat transfer mechanism of the shell side cannot be commentated by the theoretical method.
折流杆换热器壳程结构复杂,用理论方法难以获得壳程流体流动和强化传热机理。
The shell side of the rod baffle heat exchanger is so complicated that the flow field and enhanced heat transfer mechanism of the shell side cannot be commentated by the theoretical method.
应用推荐