Using the fluid differential unit, the heat transfer mathematic model of heat pipe bioreactor (HPBR) was established by the calculated fluid hydrodynamics (CFD).
从流体微元出发,用计算流体力学(CFD)的方法建立热管生物反应器的传热数学模型。
The effect of heat source location on the heat transfer of an axially grooved heat pipe was investigated.
探讨了轴向槽道热管垂直安装时热源位置的不同对热管工作特性的影响。
This paper presented influence of factor on film cooling, enhanced heat transfer in tunnel and heat pipe cooling, how to apply and development for these technologies.
详细地阐述了对气膜冷却、内部强化换热以及热管冷却等的影响因素,目前的应用状况以及发展前景。
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