Simulation of Droplet Resting on Micro-structured Surface by Lattice Boltzmann Method

机译：用格子Boltzmann方法模拟微结构表面上的液滴

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Three-dimensional liquid droplet resting on micro-structured pillar surface is simulated with lattice Boltzmann method incorporating the Cahn-Hilliard equation. This is based on the two-phase model of Zheng et al. [14] combined with partial wetting boundary condition of Briant et al. [12]. Two Simulations are conducted with the same area fractions but different pillar heights, i.e. surface roughness, which is shown to have minor influence on the apparent contact angles at the Cassie state investigated. The predicted apparent contact angles are contrasted with measurements. Predictions show lower apparent contact angles and the deviations are around 10%. This might be due to the inadequate treatment of wetting boundary condition of the pillar surface, and this is deserved to be further studied.

机译：用包含Cahn-Hilliard方程的格子Boltzmann方法模拟微结构柱表面上的三维液滴。这是基于郑等人的两相模型。 [14]结合BRIART等人的部分润湿边界条件。 [12]。两种模拟具有相同的区域级分，但不同的柱高度，即表面粗糙度，其显示在调查的卡西状态下对表观接触角度进行微小的影响。预测的表观接触角与测量结果形成鲜明对比。预测显示出较低的表观接触角，偏差约为10％。这可能是由于柱表面润湿边界条件的处理不足，并且应该进一步研究这种情况。

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《National Conferecne on Theoretical and Applied Mechanics》|2015年||共4页
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作者
Yu-Tang Ju; Feng-Chun Kuo; Yi-Ting Lin;
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正文语种
中图分类力学;
关键词
lattice Boltzmann model; partial wetting boundary; large liquid-gas density ratio; micro-structure;

机译：格子Boltzmann模型;部分润湿边界;大型液气密度比;微结构;

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Simulation of Droplet Resting on Micro-structured Surface by Lattice Boltzmann Method

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