基于Lattice-Boltzmann方法的多孔介质真空绝热特性  被引量:4

Vacuum Thermal Insulation Property Analysis of Porous Materials Based on Lattice-Boltzmann Method

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作  者:阚安康[1,2] 吴亦农[1] 徐志峰[2] 张安阔[1] 王为[2] KAN Ankang WU Yinong XU Zhifeng ZHANG Ankuo WANG Wei(Shanghai Institute of Technical Physics, Chinese Academy of Science, Shanghai, 200083, China Merchant Marine College, Shanghai Maritime University, Shanghai, 201306, China)

机构地区:[1]中国科学院上海技术物理研究所,上海200083 [2]上海海事大学商船学院,上海201306

出  处:《南京航空航天大学学报》2017年第1期17-23,共7页Journal of Nanjing University of Aeronautics & Astronautics

基  金:中国博士后科学基金(2016M590385)资助项目;上海市自然科学基金(15ZR1419900)资助项目

摘  要:作为真空绝热板的芯材,多孔介质微尺度空间形貌结构及物性参数对其绝热性能影响较大。为研究多孔介质真空下的导热性能,选择颗粒状、纤维状和泡沫状3种典型多孔介质材料,并基于Lattice-Boltzmann(LBM)提出了一种随机构造多孔介质物理模型的方法。模型中重要参数结合多孔介质电镜扫描图像处理获取。采用D3Q15LBM模型进行数值模拟,并分析了真空度及颗粒/纤维/泡孔等效直径对导热系数的影响规律。模拟与实验的对比结果揭示了多孔介质真空下的导热系数随真空度及多孔介质物性参数的变化规律。As the core material of the vacuum insulation panel, micro structure and physical properties of porous materials have great influence on the thermal insulation performance. To study the thermal conductivity of porous material under vacuum condition, three typical porous materials, that is, granular, fibrous and foamy materials are involved in this paper, and a physical model based on the Lattice-Boltzmann method (LBM) is proposed. The key parameters of the model are obtained by scanning electron microscope image from real porous materials. Numerical simulation and analysis are made to study the influence of the vacuum degree and the equivalent diameter of the particles/fiber/cell hole versus thermal conductivity by D3Q15 model based on LBM. Comparison of simulation and experimental results explores the principles of the thermal conductivity variation versus physical properties and vacuum degree. The work is significant to optimize the structure of core materials and to improve the accuracy of effective thermal conductivity prediction.

关 键 词:真空绝热板 多孔介质材料 Lattice-Boltzmann方法 导热系数 真空度 

分 类 号:TK121[动力工程及工程热物理—工程热物理]

 

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