Highly efficient and unconditionally energy stable semi-discrete time-marching numerical scheme for the two-phase incompressible flow phase-field system with variable-density and viscosity  被引量:1

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作  者:Chuanjun Chen Xiaofeng Yang 

机构地区:[1]School of Mathematics and Information Sciences,Yantai University,Yantai 264005,China [2]Department of Mathematics,University of South Carolina,SC29208,USA

出  处:《Science China Mathematics》2022年第12期2631-2656,共26页中国科学:数学(英文版)

基  金:supported by National Natural Science Foundation of China(Grant No.11771375);supported by National Science Foundation of USA(Grant No.DMS2012490)。

摘  要:For the variable-density/viscosity Cahn-Hilliard phase-field model of the binary-phase incompressible fluid flow system, the development of easy-to-implement numerical schemes has long been known as a challenging problem. We develop a novel fully-decoupled numerical technique in this article which can achieve unconditional energy stability while explicitly discretizing nonlinear coupling items. The idea is invented on the basis of combining the Strang operator splitting method and the novel decoupling method by using the zero-energy-contribution property. The scheme only needs to solve a series of completely independent linear elliptic equations at each time step, in which the Cahn-Hilliard equation and the pressure Poisson equation are with constant coefficients. To demonstrate the effectiveness of the scheme, we provide the rigorous proof of the energy stability/solvability, and also perform ample accuracy and stability tests and 2D/3D numerical simulations, including the Rayleigh-Taylor instability and bubble rising dynamics.

关 键 词:variable-density decoupled time marching Cahn-Hilliard equation Navier-Stokes equations energy stability 

分 类 号:O35[理学—流体力学]

 

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