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Scale Dependence of Contact Line Computations

O. Weinstein, L. M. Pismen (2008)

Mathematical Modelling of Natural Phenomena

The shape and velocity of a sliding droplet are computed by solving the Navier-Stokes equation with free interface boundary conditions. The Galerkin finite element method is implemented in a 2D computation domain discretized using an unstructured mesh with triangular elements. The mesh is refined recursively at the corners (contact points). The stationary sliding velocity is found to be strongly dependent on grid refinement, which is a consequence of the contact line singularity resolved through...

Solitary Structures Sustained by Marangoni Flow

L.M. Pismen (2010)

Mathematical Modelling of Natural Phenomena

We construct interfacial solitary structures (spots) generated by a bistable chemical reaction or a non-equilibrium phase transition in a surfactant film. The structures are stabilized by Marangoni flow that prevents the spread of a state with a higher surface tension when it is dynamically favorable. In a system without surfactant mass conservation, a unique radius of a solitary spot exists within a certain range of values of the Marangoni number...

Solution of the system of differential equations related to Marangoni convections in one fluid layer.

Matoog, R.T., Bukhari, Abdl-Fattah K. (2008)

APPS. Applied Sciences

Stability in a ball-partition problem.

Vogel, Thomas I. (2005)

International Journal of Mathematics and Mathematical Sciences

Displaying 1 – 4 of 4

Scale Dependence of Contact Line Computations

Solitary Structures Sustained by Marangoni Flow

Solution of the system of differential equations related to Marangoni convections in one fluid layer.

Stability in a ball-partition problem.

Currently displaying 1 – 4 of 4