A novel fully-decoupled, linear, and unconditionally energy-stable scheme of the conserved Allen-Cahn phase-field model of a two-phase incompressible flow system with variable density and viscosity

2021 ◽  
pp. 106120
Author(s):  
Peng Liu ◽  
Zhigang Ouyang ◽  
Chuanjun Chen ◽  
Xiaofeng Yang
Keyword(s):  
Incompressible Flow ◽  
Phase Field ◽  
Field Model ◽  
Flow System ◽  
Phase Field Model ◽  
Variable Density ◽  
Two Phase ◽  
Energy Stable ◽  
Energy Stable Scheme ◽  
Stable Scheme

scholarly journals Fully-discrete finite element numerical scheme with decoupling structure and energy stability for the Cahn-Hilliard phase-field model of two-phase incompressible flow system with variable density and viscosity

2021 ◽  
Author(s):  
chuanjun chen ◽  
Xiaofeng Yang
Keyword(s):  
Finite Element ◽  
Phase Field ◽  
Numerical Scheme ◽  
Field Model ◽  
Flow System ◽  
Phase Field Model ◽  
Variable Density ◽  
Two Phase ◽  
Fully Discrete ◽  
Discrete Finite Element

We construct a fully-discrete finite element numerical scheme for the Cahn-Hilliard phase-field model of the two-phase incompressible flow system with variable density and viscosity. The scheme is linear, decoupled, and unconditionally energy stable. Its key idea is to combine the penalty method of the Navier-Stokes equations with the Strang operator splitting method, and introduce several nonlical variables and their ordinary differential equations to process coupled nonlinear terms. The scheme is highly efficient and it 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 only have constant coefficients. We rigorously prove the unconditional energy stability and solvability of the scheme and carry out numerous accuracy/stability examples and various benchmark numerical simulations in 2D and 3D, including the Rayleigh-Taylor instability and rising/coalescence dynamics of bubbles to demonstrate the effectiveness of the scheme, numerically.

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