通过本文的试验研究和数值模拟,说明可以通过在高彻体力场中构造出一个封闭循环微小通道,利用通道内流体的热驱动达到强化冷却的目的;
All the numerical simulations and experiment studies in this thesis show that heat transfer can be enhanced using the liquid's thermally driven in a micro-circular enclosure in high body-force field.
本文以航空发动机涡轮叶片冷却为应用背景,对一种基于彻体力场下热驱动理论的新型冷却技术展开了首次研究,并从机理上验证了此新型冷却技术的强化冷却效果。
In this thesis, a new cooling technique, which is based on the theory of thermally driven, was studied at the background of turbine blade's cooling design in aero-engine.
应用推荐