Diffuse interface method for fluid flow and heat transfer in cellular solids

J. Ettrich; B. Nestler

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Diffuse interface method for fluid flow and heat transfer in cellular solids

机译：多孔固体中流体流动和传热的扩散界面方法

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This work presents a contribution on the numerical modelling capabilities for the simulation of fluid flow and heat transfer in cellular solids - in particular we focus on open cell aluminium foams. Rather than applying one of the classical academical or commercial numerical finite volume (FV), finite difference (FD) or finite element (FE) interface tracking methods, we base our models on an interface capturing phase field method (Nestler, 2005). A coupled diffuse interface lattice Boltzmann fluid flow solver (Ettrich, 2014) and a diffuse interface heat transfer approach (Ettrich et al., 2014) are combined in view of dealing with even more convoluted geometries, incorporating the dynamics of interfaces and complex multiphysics applications. Numerical results for the combined fluid flow and heat transfer simulations in open cell metal foams are in very good agreement with experimental data (Ettrich and Martens, 2012; Ettrich et al., 2012).

机译：这项工作为数值模拟功能的发展做出了贡献，用于模拟多孔固体中的流体流动和传热-特别是我们专注于开孔铝泡沫。我们没有采用经典的学术或商业数值有限体积（FV），有限差分（FD）或有限元（FE）界面跟踪方法中的一种，而是基于界面捕获相场方法（Nestler，2005）建立了模型。考虑到处理更复杂的几何形状，结合了界面动力学和复杂的多物理场应用，结合了耦合的扩散界面格子玻尔兹曼流体流动求解器（Ettrich，2014）和扩散界面传热方法（Ettrich等，2014）。。开孔金属泡沫中流体流动和传热模拟的组合数值结果与实验数据非常吻合（Ettrich和Martens，2012； Ettrich等，2012）。

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来源
《Advances in Engineering Software》 |2015年第9期|1-12|共12页
作者
J. Ettrich; B. Nestler;
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作者单位

Offenburg University of Applied Sciences, Faculty of Mechanical and Process Engineering, Badstrasse 24, 77652 Offenburg, Germany;

Karlsruhe Institute of Technology, Institute of Applied Materials, Haid-und-Neu-Str. 7, 76131 Karlsruhe, Germany,Karlsruhe University of Applied Sciences, Institute of Materials and Processes, Moltkestrasse 30, 76133 Karlsruhe, Germany;

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正文语种 eng
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Phase-field; Lattice-Boltzmann; Segmented tensorial mobility; Heat-transfer; Cellular solids; Open cell metal foam;

机译：相场莱迪丝-玻尔兹曼分段张量运动传播热量;细胞固体;开孔金属泡沫;

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机译：在稳态轴对称流动状态下，从球体到牛顿流体的强制对流换热，在液-固界面处有速度滑移
2. Diffuse interface immersed boundary method for low Mach number flows with heat transfer in enclosures [J] . Kumar Mukesh, Natarajan Ganesh Physics of fluids . 2019,第8期

机译：漫反射界面浸没边界法与外壳中热传递的低马赫数流动
3. Diffuse interface method for two-species relativistic flows with heat transfer and particle interconversion [J] . Giambò S. EPL . 2011,第5期

机译：带有传热和粒子互变的两种相对论流的扩散接口方法
4. Two-Phase Study of Fluid Flow and Heat Transfer in Gas-Solid Flows (Nanofluids) [C] . Hossein Afshar, Mehrzad Shams, SeyedMojtba Mousavi Nainian, International Conference on Mechanical and Aerospace Engineering . 2012

机译：气固流体流体流动和热传递的两相研究（纳米流体）
5. Heat transfer studies in a gas-solids downflow circulating fluidized bed (downer) [D] . Ma, Yingliang. 1998

机译：气固下流循环流化床（下管）中的传热研究
6. Analysis of Heat Transfers inside Counterflow Plate Heat Exchanger Augmented by an Auxiliary Fluid Flow [O] . A.-R. A. Khaled -1

机译：辅助流体增加对流板式换热器内部传热的分析
7. Discussion: “Force Convection Heat Transfer at an Inclined and Yawed Square Plate—Application to Solar Collectors” (Sparrow, E. M., and Tien, K. K., 1977, ASME J. Heat Transfer, 99, pp. 507–512) and “Local Heat Transfer and Fluid Flow Characteristics for Airflow Oblique or Normal to Square Plate” (Tien, K. K., and Sparrow, E. M., 1979, Internation Journal of Heat and Mass Transfer, 22, pp. 349–359) and “Effect of Finite Width on Heat Transfer and Fluid Flow about an Inclined Rectangular Plate” (Sparrow, E. M., Ramsey, J. W., and Mass, E. A., 1979, ASME J. Heat Transfer, 101, pp. 199–204) [O] . B. Nimmo, S. Zubair 1981

机译：讨论：“在倾斜和偏航的方形板应用于太阳能收集器的强制对流传热”（Sparrow，EM和Tien，KK，1977，Asme J.传热，99，PP。507-512）和“局部热量用于气流倾斜或正常板的转移和流体流动特性“（Tien，KK和Sparrow，EM，1979，热量和传质杂志，22，pp.349-359）和”有限宽度对热量的影响关于倾斜矩形板的转移和流体流动“（Sparrow，EM，Ramsey，JW和Mass，EA，1979，ASME J.传热，101，PP。199-204）
8. Fluid Flow and Heat Transfer at Low Pressures and Temperatures. Notes on Performance Comparison Methods for Supersonic Wind Tunnel Diffusers. [R] . Kane, E. D. 1947

机译：流体流动和传热在低压和低温。在性能比较方法说明了超音速风洞风口。

Diffuse interface method for fluid flow and heat transfer in cellular solids

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