In)compressibility and parameter identification in phase field models for capillary flows

IF 0.7 Q4 MECHANICS Theoretical and Applied Mechanics Pub Date : 2017-01-01 DOI:10.2298/TAM170803009D
M. Dehsara, H. Fu, S. Mesarovic, D. P. Sekulic, M. Krivilyov
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引用次数: 12

Abstract

Phase field (diffuse interface) models accommodate diffusive triple line motion with variable contact angle, thus allowing for the no-slip boundary condition without the stress singularities. We consider two commonly used classes of phase field models: the compositionally compressible (CC) model with compressibility limited to the fluid mix within the diffuse interface, and the incompressible (IC) model. First, we show that the CC model applied to fluids with dissimilar mass densities exhibits the computational instability leading to the breakup of the triple line. We provide a qualitative physical explanation of this instability and argue that the compositional compressibility within the diffuse interface is inconsistent with the global incompressible flow. Second, we derive the IC model as a systematic approximation to the CC model, based on a suitable choice of continuum velocity field. Third, we benchmark the IC model against sharp interface theory and experimental kinetics. The triple line kinetics is well represented by the triple line mobility parameter. Finally, we investigate the effects of the bulk phase field diffusional mobility parameter on the kinetics of the wetting process and find that within a wide range of magnitudes the bulk mobility does not affect the flow.
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毛细管流动相场模型的可压缩性和参数辨识
相场(扩散界面)模型可以适应变接触角的扩散三线运动,从而允许无滑移边界条件而不存在应力奇点。我们考虑了两类常用的相场模型:可压缩性仅限于扩散界面内流体混合的组分可压缩(CC)模型和不可压缩(IC)模型。首先,我们表明CC模型应用于具有不同质量密度的流体表现出计算不稳定性,导致三线断裂。我们对这种不稳定性提供了定性的物理解释,并认为扩散界面内的组分可压缩性与整体不可压缩流动不一致。其次,在选择合适的连续速度场的基础上,我们推导出了作为CC模型的系统逼近的IC模型。第三,我们根据锐界面理论和实验动力学对集成电路模型进行了基准测试。三线迁移率参数很好地表示了三线动力学。最后,我们研究了体相场扩散迁移率参数对润湿过程动力学的影响,发现在很宽的量级范围内,体迁移率不影响流动。
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来源期刊
CiteScore
0.90
自引率
0.00%
发文量
4
审稿时长
32 weeks
期刊介绍: Theoretical and Applied Mechanics (TAM) invites submission of original scholarly work in all fields of theoretical and applied mechanics. TAM features selected high quality research articles that represent the broad spectrum of interest in mechanics.
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