本文对分散型固液两相混合物层流管流中非均匀剪切力场导致的微对流现象以及由此引起的导热系数增强效应作了机理和影响因素分析,认为除速度分布、颗粒浓度和粒径以外,还存在颗粒形状、粒径分布,壁面热流方向、颗粒表面性质及其与载流介质间的相容性等多个影响因素.模拟计算表明,由微对流导致的对流换热强化与流体在管壁面上的表观导热系数强化具有相同的数量.
参考文献
| [1] | C W Sohn;M M Chen .Microconvective Thermal Conductivity in Disperse Two-Phase Mixtures as Observed in a Low Velocity Couette Flow Experiment[J].Journal of Heat Transfer,1981,103:47-50. |
| [2] | S K Gupte;S G Advani .Role of Micro-Convection Due to Non-Affine Motion of Particles in a Mono-Disperse Suspension[J].International Journal of Heat and Mass Transfer,1995,38(16):2945-2958. |
| [3] | P Charunyakorn;at al .Forced Convection Heat Transfer in Microencapsulated Phase Change Material Slurries:Flow in Circular Ducts[J].International Journal of Heat and Mass Transfer,1991,34(03):19-32. |
| [4] | M Goel et al.Laminar Forced Convection Heat Transfer in Microencapsulated Phase Change Material Suspensions[J].International Journal of Heat and Mass Transfer,1994,37(04):593-604. |
| [5] | Xianxu Hu;Yinping Zhang .Novel insight and numerical analysis of convective heat transfer enhancement with microencapsulated phase change material slurries: laminar flow in a circular tube with constant heat flux[J].International Journal of Heat and Mass Transfer,2002(15):3163-3172. |
| [6] | 李强 .纳米流体强化传热机理研究[D].南京理工大学,2004. |
| [7] | H Inaba .New Challenge in Advanced Thermal Eergy Tansportation Uing Fnctionally Termal Fluids[J].International Journal of Thermal Sciences,2000,39(06):991-1000. |
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