Consistency-enhanced modified SAV time-stepping method with relaxation for binary mixture of and viscous fluids
From MaRDI portal
Publication:6669764
DOI10.1016/j.cnsns.2024.108451MaRDI QIDQ6669764
Publication date: 22 January 2025
Published in: Communications in Nonlinear Science and Numerical Simulation (Search for Journal in Brave)
Basic methods in fluid mechanics (76Mxx) Numerical methods for partial differential equations, initial value and time-dependent initial-boundary value problems (65Mxx) Foundations, constitutive equations, rheology, hydrodynamical models of non-fluid phenomena (76Axx)
Cites Work
- Semi-discrete energy-stable schemes for a tensor-based hydrodynamic model of nematic liquid crystal flows
- Anisotropic fluids
- Hydrostatic theory of liquid crystals
- Efficient implementation of essentially nonoscillatory shock-capturing schemes. II
- A coupled Ericksen/Allen-Cahn model for liquid crystal droplets
- A phase-field method for two-phase fluid flow in arbitrary domains
- The fractional Allen-Cahn equation with the sextic potential
- Linear, second-order accurate, and energy stable scheme for a ternary Cahn-Hilliard model by using Lagrange multiplier approach
- Second-order accurate and energy stable numerical scheme for an immiscible binary mixture of nematic liquid crystals and viscous fluids with strong anchoring potentials
- A second order accurate scalar auxiliary variable (SAV) numerical method for the square phase field crystal equation
- Improving the accuracy and consistency of the scalar auxiliary variable (SAV) method with relaxation
- A second-order time accurate and fully-decoupled numerical scheme of the Darcy-Newtonian-nematic model for two-phase complex fluids confined in the Hele-Shaw cell
- Fully discrete spectral-Galerkin linear and unconditionally energy stable algorithm for the square phase-field crystal system
- Fully-decoupled, energy stable second-order time-accurate and finite element numerical scheme of the binary immiscible nematic-Newtonian model
- Unconditionally energy-stable time-marching methods for the multi-phase conservative Allen-Cahn fluid models based on a modified SAV approach
- Numerical approximations of a hydro-dynamically coupled phase-field model for binary mixture of passive/active nematic liquid crystals and viscous fluids
- An unconditionally stable second-order accurate method for systems of Cahn-Hilliard equations
- A revisit of the energy quadratization method with a relaxation technique
- An improved scalar auxiliary variable (SAV) approach for the phase-field surfactant model
- A novel linear second order unconditionally energy stable scheme for a hydrodynamic \(\mathbf{Q} \)-tensor model of liquid crystals
- Numerical approximations to a new phase field model for two phase flows of complex fluids
- Efficient energy-stable schemes for the hydrodynamics coupled phase-field model
- Shear cell rupture of nematic liquid crystal droplets in viscous fluids
- An overview on numerical analyses of nematic liquid crystal flows
- Modeling and simulations of drop pinch-off from liquid crystal filaments and the leaky liquid crystal faucet immersed in viscous fluids
- Totally decoupled implicit-explicit linear scheme with corrected energy dissipation law for the phase-field fluid vesicle model
- Consistency-enhanced SAV BDF2 time-marching method with relaxation for the incompressible Cahn-Hilliard-Navier-Stokes binary fluid model
- A diffuse-interface method for simulating two-phase flows of complex fluids
- A stable scheme and its convergence analysis for a 2D dynamic Q-tensor model of nematic liquid crystals
- The Exponential Scalar Auxiliary Variable (E-SAV) Approach for Phase Field Models and Its Explicit Computing
- Numerical Simulations of Hydrodynamics of Nematic Liquid Crystals: Effects of Kinematic Transports
- AN AUGMENTED PROJECTION METHOD FOR THE INCOMPRESSIBLE NAVIER-STOKES EQUATIONS IN ARBITRARY DOMAINS
- Modelling and computation of liquid crystals
- A new Lagrange multiplier method for the mass-conserved Allen-Cahn type square phase-field crystal model
- A novel fully decoupled scheme with second-order time accuracy and unconditional energy stability for the Navier-Stokes equations coupled with mass-conserved Allen-Cahn phase-field model of two-phase incompressible flow
- Linear unconditional energy-stable splitting schemes for a phase-field model for nematic-isotropic flows with anchoring effects
This page was built for publication: Consistency-enhanced modified SAV time-stepping method with relaxation for binary mixture of and viscous fluids
