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最新发表论文 (International Journal of Heat and Mass Transfer)

通讯员:      发布日期:2020-04-15     浏览量:

论文题目:Meso-scale investigations on the effective thermal conductivity of multi-phase materials using the finite element method

作者:Kai-Qi Li (李凯奇), Dian-Qing Li (李典庆), Yong Liu (刘勇)

杂志:International Journal of Heat and Mass Transfer

DOI: 10.1016/j.ijheatmasstransfer.2020.119383

APA引用格式:Li K. Q., Li D. Q. & Liu Y. (2020). Meso-scale investigations on the effective thermal conductivity of multi-phase materials using the finite element method. International Journal of Heat and Mass Transfer, 151, 119383.

摘要:

Many materials (e.g. soil) are multi-phase composites in engineering, and the thermal conductivity of mixtures is a critical parameter for analyzing the temperature field. Owing to its heterogeneity, the effective thermal conductivity of multi-phase materials is also not deterministic. The prediction of the thermal properties of a multi-phase material remains a challenging task. In this study, soil is considered to be a typical multi-phase material. A numerical simulation model is established by the finite element method to predict the meso-scale effective thermal conductivity of soil. Monte Carlo simulation is employed to account for the random distribution of voids. Comparisons among numerical, experimental and empirical results suggest that the proposed model can predict reasonably accurate results. In addition, the effective thermal conductivity of unfrozen soil, partially frozen soil and fully frozen soil is calculated. The effects of soil type, porosity and saturation degree on effective thermal conductivity are considered via parametric studies. The proposed numerical method can be used as an effective supplement to empirical model and experimental tests for evaluating the thermal conductivity of multi-phase materials.