We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handling arbitrary surfaces of mixed wettabilities in three dimensions. We study a number of dynamic contact angle models and implement them as a boundary condition for the Continuum Surface Force method. Special care is taken to capture the contact angle hysteresis by using separate models for the advancing and receding contact lines. The framework is able to account for surfaces of varying wettability by making the contact angle dependent on the local boundary condition. We validate our framework using cases where glycerol droplets impact solid surfaces at low Weber numbers. We show how a truly dynamic contact angle model is needed for advancing ...
Introduction In this study,a novel numerical implementation for the adhesion of liquid droplets imp...
Drop impact onto a solid surface is a complex phenomenon, which is depending on a variety of factors...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...
We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handli...
Many multiphase-flows are governed by capillarity and wettability such as spray painting and ink-jet...
none2A numerical study on contact angle dynamics during spreading and recoil of droplets impacting o...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The modeling and the numerical representation of the contact line between a two-phase interface and ...
A numerical study on contact angle dynamics during spreading and recoil of droplets impacting orthog...
The “Direct Numerical Simulations” (DNS) of droplet impact processes is of great interest and import...
The numerical simulation of droplet impact is of interest for a vast variety of industrial processes...
The numerical simulation of droplet impact is of interest for a vast variety of industrialprocesses,...
Effects of dynamic contact angle models on the flow dynamics of an impinging droplet in sharp interf...
A method for the numerical simulation of the dynamic response of the contact angle is presented and ...
The paper proposes a general framework allowing the analysis of wetting problems in the si...
Introduction In this study,a novel numerical implementation for the adhesion of liquid droplets imp...
Drop impact onto a solid surface is a complex phenomenon, which is depending on a variety of factors...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...
We propose a comprehensive immersed boundary-based dynamic contact angle framework capable of handli...
Many multiphase-flows are governed by capillarity and wettability such as spray painting and ink-jet...
none2A numerical study on contact angle dynamics during spreading and recoil of droplets impacting o...
The description of wetting phenomena is a challenging problem on every considerable length-scale. Th...
The modeling and the numerical representation of the contact line between a two-phase interface and ...
A numerical study on contact angle dynamics during spreading and recoil of droplets impacting orthog...
The “Direct Numerical Simulations” (DNS) of droplet impact processes is of great interest and import...
The numerical simulation of droplet impact is of interest for a vast variety of industrial processes...
The numerical simulation of droplet impact is of interest for a vast variety of industrialprocesses,...
Effects of dynamic contact angle models on the flow dynamics of an impinging droplet in sharp interf...
A method for the numerical simulation of the dynamic response of the contact angle is presented and ...
The paper proposes a general framework allowing the analysis of wetting problems in the si...
Introduction In this study,a novel numerical implementation for the adhesion of liquid droplets imp...
Drop impact onto a solid surface is a complex phenomenon, which is depending on a variety of factors...
We present a phase field approach to wetting problems, related to the minimization of capillary ener...