由Onsager变分原理导出的水动力边界条件

Procedia IUTAM Pub Date : 2017-01-01 DOI:10.1016/j.piutam.2017.03.020

Xinpeng Xu, Tiezheng Qian

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引用次数: 7

摘要

除了体积区域的流体动力学方程外，适当的流体动力学边界条件对于从理论上理解和数值模拟许多软物质系统的流体动力学至关重要，例如固体表面上的两相流和固体表面上的粘弹性流体。在这项工作中，我们证明了由Lars Onsager在1931年的开创性工作中首次提出的Onsager变分原理，不仅提供了一个方便的工具来推导体积区域的水动力方程，而且还提供了热力学一致的水动力边界条件。为了证明它的应用，我们考虑了固体表面上涉及移动接触线的单组分液-气流动和不混相两相流动。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Hydrodynamic Boundary Conditions Derived from Onsager's Variational Principle

In addition to hydrodynamic equations in the bulk region, proper hydrodynamic boundary conditions are essential to theoretically understanding and numerically simulating the hydrodynamics of many soft matter systems, e.g. two-phase flows on solid surfaces and viscoelastic fluids on solid surfaces. In this work, we show that Onsager's variational principle, first proposed by Lars Onsager in his seminal work in 1931, provides a convenient instrument for deriving not only hydrodynamic equations in the bulk region but also thermodynamically consistent hydrodynamic boundary conditions. To demonstrate its applications, we consider one-component liquid-vapor flows and immiscible two-phase flows on solid surfaces where moving contact line is involved.

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