Add to ORKGAbstract- In this note we examine the implications of Cahn-Hilliard diffusion on mass conservation when using a phase-field model for simulating two-phase flows. Even though the phase-field variable φ is conserved globally, a drop shrinks spontaneously while φ shifts from its expected values in the bulk phases. Those changes are found to be proportional to the interfacial thickness, and we suggest guidelines for minimizing the loss of mass. Moreover, there exists a critical radius below which drops will eventually disappear. With a properly chosen mobility parameter, however, this process will be much slower than the physics of interest and thus has little ill effect on the simulation
We present extensive results from two-dimensional simulations of phase-separation kinetics in a mode...
To understand how the motion of a droplet on a surface can be controlled by wettability gradients is...
Phase-field models describe the motion of multiphase flows using smooth interfaces across which the ...
Phase field models frequently provide insight into phase transitions and are robust numerical tools ...
In this paper the development of a physically consistent phase-field theory of solidification shrink...
Computational Fluid Dynamics is the science of solving the governing equations of fluid motion numer...
We perform computer simulations of a Cahn-Hilliard model of phase separation that has dynamical asym...
We formulate phase-field models for electrowetting with electrolyte solutions for general mass densi...
We simulate the diffusion-driven dissolution or growth of a single-component liquid drop embedded in...
We investigate the critical nuclei morphology in phase transformation by combining two effective ing...
We simulate the diffusion-driven dissolution or growth of a single-component drop embedded in a cont...
The Cahn–Hilliard equation is one of the most common models to describe phase separation processes o...
Cahn-Hilliard type of phase field model coupled with elasticity equations is used to derive governin...
When the mass constraint of the Cahn-Hilliard equation in two dimensions is lowered to the order of ...
We review the phase field (otherwise called diffuse interface) model for fluid flows, where all quan...
We present extensive results from two-dimensional simulations of phase-separation kinetics in a mode...
To understand how the motion of a droplet on a surface can be controlled by wettability gradients is...
Phase-field models describe the motion of multiphase flows using smooth interfaces across which the ...
Phase field models frequently provide insight into phase transitions and are robust numerical tools ...
In this paper the development of a physically consistent phase-field theory of solidification shrink...
Computational Fluid Dynamics is the science of solving the governing equations of fluid motion numer...
We perform computer simulations of a Cahn-Hilliard model of phase separation that has dynamical asym...
We formulate phase-field models for electrowetting with electrolyte solutions for general mass densi...
We simulate the diffusion-driven dissolution or growth of a single-component liquid drop embedded in...
We investigate the critical nuclei morphology in phase transformation by combining two effective ing...
We simulate the diffusion-driven dissolution or growth of a single-component drop embedded in a cont...
The Cahn–Hilliard equation is one of the most common models to describe phase separation processes o...
Cahn-Hilliard type of phase field model coupled with elasticity equations is used to derive governin...
When the mass constraint of the Cahn-Hilliard equation in two dimensions is lowered to the order of ...
We review the phase field (otherwise called diffuse interface) model for fluid flows, where all quan...
We present extensive results from two-dimensional simulations of phase-separation kinetics in a mode...
To understand how the motion of a droplet on a surface can be controlled by wettability gradients is...
Phase-field models describe the motion of multiphase flows using smooth interfaces across which the ...