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模拟细观非均质材料破坏演化的物理元胞自动机理论   总被引:13,自引:0,他引:13       下载免费PDF全文
根据非均质材料的细观特征,从基本的能量传递定律出发,建立了一种新的描述细观非均质材料破坏演化的物理元胞自动机(PCA)理论.该理论能够对岩石、混凝土等非均质材料破坏演化进行有效模拟,突破了传统元胞自动机仅限于数学规则运算的框架,使之成为一种有效的物理力学方法.与岩石力学实验结果对比分析表明,PCA模拟结果与实验结果基本符合  相似文献
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A modified Lattice-Boltzmann method is proposed by considering the Klinkenberg effect and adsorbability-desorbability for the purpose of simulating methane gas seepage in fissured coal. The results show that the Klinkenberg effect has a little influence on methane gas seepage in fissured coal, so it can be neglected in engineering computations for simplicity. If both the Klinkenberg effect and the adsorbability-desorbability are considered, the Klinkenberg influence on gas pressure decreases as the Darcy coefficient increases. It is found by gas drainage simulations that near a drainage hole, the effect of adsorption and desorption cannot be neglected, and the location of the drainage hole has a great influence on drainage efficient λ when the hole is just located at the mid-zone of the coal seam, λ is 0.691808; when the hole is excursion down to 1.0m from the mid-zone of coal seam, λ decreases to 0.668631; when the hole is excursion up or down to 2.0m from the mid-zone of coal seam, λ decreases to 0.632917. The simulations supply an effective approach for optimizing the gas drainage hole location.  相似文献
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