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在流场和温度场协同的基础上,分析了流场和压力场的协同配合关系.分析表明:在换热强化基本相同的情况下,增大速度和压力梯度间的夹角,可以改善速度场和压力场的协同性,从而减小压降的增大,实现较小压降下获得较高的换热性能.说明了高效低阻强化换热的技术在于温度场、速度场和压力场的较好协同.

In this paper,an analysis of the synergy of velocity field and pressure field is carried out.The results show that an increase of the intersection angle between velocity and pressure gradient improves the synergy between the velocity field and the pressure field with an equal heat transfer enhancement,thus resulting in a reduction of penalty of pressure drop and higher heat transfer performance with low pressure drop.The synergy of the temperature field,velocity field and pressure field is the basic mechanism for the techniques of heat transfer augmentation with loW penalty of pressure drop.

参考文献

[1] Guo ZY.;Wang BX.;Li DY. .A novel concept for convective heat transfer enhancement[J].International Journal of Heat and Mass Transfer,1998(14):2221-2225.
[2] W.Q.Tao;Y.L.He;Q.W.Wang .A unified analysis on enhancing single phase convective heat transfer with field synergy principle[J].International Journal of Heat and Mass Transfer,2002(24):4871-4879.
[3] 费祥麟.高等流体力学[M].西安:西安交通大学出版社,1989
[4] 陶文铨;何雅玲.对流换热及其强化的理论与实验研究最新进展[M].北京:高等教育出版社,2005
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