丘吉尔-伯恩斯坦方程
焓
化学
传热
传质
机械
领域(数学)
物理
热力学
努塞尔数
数学
雷诺数
湍流
纯数学
作者
LiangBo Wu,Zhen Li,Yaozu Song
标识
DOI:10.1007/s11434-009-0498-3
摘要
Simultaneous heat and mass transfer widely exists in nature and engineering, and it is of vital importance to enhance heat and mass transfer efficiency. In this paper, field synergy equation of heat and mass transfer is derived from its energy equation. Results show that the total transferred heat (including the conducted heat and the heat transferred by mass diffusion through the heat transfer interface) is determined by the values of fluid velocity and enthalpy gradient as well as the value of synergy angle α of velocity vector and enthalpy gradient field. Decreasing the value of α enhances the heat and mass transfer. This means the higher the synergy of velocity vector and enthalpy gradient field, the higher the total transferred heat. By the synergy principle of heat and mass transfer, some methods may be developed to improve the heat and mass transfer efficiency.
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