Add to ORKGIn this work we investigate the impact of elasticity on the thermocapillary motion of droplets for the case of vanishing Reynolds and Marangoni numbers, i.e. when inertial terms in the momentum equation and convective-transport contribution in the energy equation are negligible. The study has been carried out employing a coupled Level-Set-Volume of Fluid approach and an adaptive mesh refinement strategy implemented in the framework of the CFD toolbox OpenFOAM
eiv ro o- a The Navier–Stokes equations coupled with the energy conservation equation are solved by ...
The transport phenomenon of drops or bubbles is a very important topic in fundamental hydrodynamics ...
[[abstract]]This work is a fundamental study on the movement of various sized micro-liter droplets o...
Thermocapillary flows, also known as thermal Marangoni flows, have extensive applications in a varie...
The thermocapillary motion of liquid droplets in fluid media depends on a variety of influential fac...
In this paper, the study on isolated spherical drops in thermocapillary migrations in zero gravity i...
The unsteady process for thermocapillary droplet migration at large Reynolds and Marangoni numbers h...
In this paper, the overall steady-state momentum and energy balances in the thermocapillary migratio...
In this work we investigate the role played by viscoelasticity on the thermocapillary motion of a de...
In the present study a parallel three dimensional Volume of Fluid (VOF) method is developed to simul...
AbstractThe unsteady processes of the Marangoni migration of deformable liquid drops are simulated n...
In this paper, roles of interfacial rheology on thermocapillary migration of a planar droplet at sma...
The overall steady-state energy balance with two phases in a flow domain requires that the change in...
Thermocapillary migration of a planar non-deformable droplet in flow fields with two uniform tempera...
Using the level-set method and the continuum interface model, the axisymmetric thermocapillary migra...
eiv ro o- a The Navier–Stokes equations coupled with the energy conservation equation are solved by ...
The transport phenomenon of drops or bubbles is a very important topic in fundamental hydrodynamics ...
[[abstract]]This work is a fundamental study on the movement of various sized micro-liter droplets o...
Thermocapillary flows, also known as thermal Marangoni flows, have extensive applications in a varie...
The thermocapillary motion of liquid droplets in fluid media depends on a variety of influential fac...
In this paper, the study on isolated spherical drops in thermocapillary migrations in zero gravity i...
The unsteady process for thermocapillary droplet migration at large Reynolds and Marangoni numbers h...
In this paper, the overall steady-state momentum and energy balances in the thermocapillary migratio...
In this work we investigate the role played by viscoelasticity on the thermocapillary motion of a de...
In the present study a parallel three dimensional Volume of Fluid (VOF) method is developed to simul...
AbstractThe unsteady processes of the Marangoni migration of deformable liquid drops are simulated n...
In this paper, roles of interfacial rheology on thermocapillary migration of a planar droplet at sma...
The overall steady-state energy balance with two phases in a flow domain requires that the change in...
Thermocapillary migration of a planar non-deformable droplet in flow fields with two uniform tempera...
Using the level-set method and the continuum interface model, the axisymmetric thermocapillary migra...
eiv ro o- a The Navier–Stokes equations coupled with the energy conservation equation are solved by ...
The transport phenomenon of drops or bubbles is a very important topic in fundamental hydrodynamics ...
[[abstract]]This work is a fundamental study on the movement of various sized micro-liter droplets o...