A simplistic analytical unit cell based model for the effective thermal conductivity of high porosity open-cell metal foams

Yang X.H.; Kuang J.J.; Lu T.J.; Han F.S.; Kim T.

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A simplistic analytical unit cell based model for the effective thermal conductivity of high porosity open-cell metal foams

机译：基于简单单元格分析的高孔隙率开孔金属泡沫有效导热系数模型

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We present a simplistic yet accurate analytical model for the effective thermal conductivity of high porosity open-cell metal foams saturated in a low conducting fluid (air). The model is derived analytically based on a realistic representative unit cell (a tetrakaidecahedron) under the assumption of one-dimensional heat conduction along highly tortuous-conducting ligaments at high porosity ranges (ε 0.9). Good agreement with existing experimental data suggests that heat conduction along highly conducting and tortuous ligaments predominantly defines the effective thermal conductivity of open-cell metal foams with negligible conduction in parallel through the fluid phase.

机译：我们为在低传导性流体（空气）中饱和的高孔隙度开孔金属泡沫的有效导热系数提供了一种简单而准确的分析模型。该模型基于现实的代表性晶胞（四kai十二面体），在高孔隙率范围（ε0.9）下沿高曲折传导性韧带进行一维热传导时，通过分析得出。与现有实验数据的良好一致性表明，沿着高传导性和曲折韧带的热传导主要定义了通过流体相平行传导可忽略不计的开孔金属泡沫的有效热传导率。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |2013年第25期|共6页
作者
Yang X.H.; Kuang J.J.; Lu T.J.; Han F.S.; Kim T.;
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正文语种 eng
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model; conductivity; conducting;

机译：模型;电导率;导电;

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1. A simplistic analytical unit cell based model for the effective thermal conductivity of high porosity open-cell metal foams [J] . Yang X.H., Kuang J.J., Lu T.J., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2013,第25期

机译：基于简单单元格分析的高孔隙率开孔金属泡沫有效导热系数模型
2. An Analytical Unit Cell Model for the Effective Thermal Conductivity of High Porosity Open-Cell Metal Foams [J] . Xiao Hu Yang, Jia Xi Bai, Hong Bin Yan, Transport in Porous Media . 2014,第3期

机译：高孔隙率开孔金属泡沫有效导热系数的解析晶胞模型
3. A Three-Dimensional Analytical Model for the Effective Thermal Conductivity and Porosity in High-Porosity Metal Foam Using a Nonisotropic Unit Cell [J] . M. HAGHIGHI, N. KASIRI Journal of enhanced heat transfer . 2010,第3期

机译：高孔隙率金属泡沫有效导热系数和孔隙率的三维分析模型
4. GEOMETRY DEPENDENT EFFECTIVE HEAT CONDUCTIVITY OF OPEN-CELL FOAMS BASED ON KELVIN CELL MODELS [C] . J. Storm, M. Abendroth, M. Kuna Biennial worldwide congress on refractories . 2014

机译：基于开尔文细胞模型的开放式电池泡沫的几何依赖性导热率
5. Analytical and Numerical Modeling of Fluid Flow and Heat Transfer through Open-Cell Metal Foam Heat Exchangers [D] . Taheri, Mehrdad. 2015

机译：通过开孔金属泡沫热交换器进行流体流动和传热的分析和数值模型
6. Influence of Porosity on the Mechanical Behavior during Uniaxial Compressive Testing on Voronoi-Based Open-Cell Aluminium Foam [O] . Varun Sharma, Nenad Grujovic, Fatima Zivic, 2019

机译：孔隙度对Voronoi基开孔铝泡沫单轴压缩试验中力学性能的影响
7. Simulation of Thermal Transport in Open-Cell Metal Foams: Effect of Periodic Unit-Cell Structure [O] . Shankar Krishnan, Suresh V. Garimella, Jayathi Y. Murthy 2008

机译：开孔金属泡沫热传输模拟：周期性单元结构的影响
8. Effective Thermal Conductivity of High Porosity Open Cell Nickel Foam [R] . Sullins, A. D. , Daryabeigi, K. 2001

机译：高孔隙率开孔镍泡沫的有效导热系数

A simplistic analytical unit cell based model for the effective thermal conductivity of high porosity open-cell metal foams

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