化工学报 ›› 2021, Vol. 72 ›› Issue (8): 4121-4133.DOI: 10.11949/0438-1157.20201662

• 流体力学与传递现象 • 上一篇    下一篇

LTNE条件下界面对流传热系数对部分填充多孔介质通道传热特性的影响

李琪(),张容铭,胡鹏飞()   

  1. 东北电力大学能源与动力工程学院,吉林省 吉林市 132012
  • 收稿日期:2020-11-17 修回日期:2021-05-05 出版日期:2021-08-05 发布日期:2021-08-05
  • 通讯作者: 胡鹏飞
  • 作者简介:李琪(1986—),女,博士,副教授,liqi_1015@163.com
  • 基金资助:
    国家自然科学基金项目(41702250);吉林省教育厅“十三五”科学技术项目(JJKH20200107KJ)

Influence of interfacial convective heat transfer coefficient on heat transfer in partially filled porous channel under LTNE condition

Qi LI(),Rongming ZHANG,Pengfei HU()   

  1. School of Energy and Power Engineering, Northeast Electric Power University, Jilin 132012, Jilin, China
  • Received:2020-11-17 Revised:2021-05-05 Online:2021-08-05 Published:2021-08-05
  • Contact: Pengfei HU

摘要:

在多孔介质区考虑局部非热平衡,采用Brinkman-extended Darcy模型结合应力跳跃条件对部分填充多孔介质通道内流体传热特性进行分析。获得了各区域温度分布及Nusselt数解析解,并分析了各参数对温度及Nusselt数的影响。结果表明:界面对流传热系数Hs较小时,界面应力跳跃系数β和Darcy数Da的增加会减小流固两相间温差。而在高Hs下,Da减小也会减小两相温差。在DaHs和固流两相热导率之比K较大且空心率S(自由流体区高度与通道高度之比)和Biot数Bi较小时,流固两相间会在接近多孔介质区中部出现最大温差,而该最大温差会随着S增加和DaHs的减小向界面区移动。对于不同KBi,Nusselt数NuS的关系曲线存在不同的类型,与模型A(界面处多孔介质固相和流相根据各自温度梯度和热导率划分总热流)不同的是,采用模型C(界面处固相热流分配与自由流体区流相的热交换相关)所获得的Nu曲线类型与Hs有关。在K较小时,βNu的影响大于HsNu的影响;而在K较大时,HsNu的影响要远大于βNu的影响,且Hs增加会明显提高通道内的Nu

关键词: 多孔介质, 局部热非平衡模型, Brinkman-extended Darcy 模型, 传热, 流体力学

Abstract:

Considering local non-thermal equilibrium in porous region and using the Brinkman-extended Darcy model with stress jump conditions, the heat transfer characteristics in a partially filled porous media channel are analyzed. The analytical solutions of temperature fields and Nusselt number in fluid and solid regions are obtained, and the influences of different parameters on temperature fields and Nusselt number are analyzed. The results show that when interfacial convection heat transfer coefficient, Hs, is small, the increasing of the interfacial stress jump coefficient, β, and Darcy number, Da, will reduce the two phases temperature difference between fluid and solid phases. While at a high Hs, decreasing of Da will also decrease two phases temperature difference. When Da, Hs and thermal conductivity ratio, K, are large, hollow ratio, S (ratio of the free region height to the channel height), and Biot number, Bi, are small, there is a maximum temperature difference between fluid and solid phases occurs near the core of porous region, and this maximum temperature difference will move to the interface region with the increase of S, and the decrease of Da and Hs. For different K and Bi, the curves of the relationship between Nusselt number Nu and S have different types for model C (the heat flux distribution of solid phase at the interface is related to the heat exchange of the fluid phase in the free fluid region) in this study and the curves' type is related with Hs, which is different from model A (the total heat flux division between the solid and fluid phases is based on their effective conductivities and the corresponding temperature gradients). When K is small, the influence of β on Nu is greater than that of Hs on Nu. When K is large, the influence of Hs on Nu is much greater than that of β on Nu, and the increase of Hs will significantly increase Nu in the channel.

Key words: porous media, local thermal non-equilibrium model, Brinkman-extended Darcy model, heat transfer, fluid mechanics

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