A finite element analysis of a free surface drainage problem of two immiscible fluids

Optimal shape design approach is applied to numerical computation of a model potential free boundary value problem. The problem is discretized using the ÿnite element method. To test the approach the problem is formulated in both velocity potential and stream function formulation and four di erent ÿ

## Abstract In Loula and Zhou [Comput Appl Math 20 (2001), 321–339], a thermally coupled nonlinear elliptic system modeling a large class of engineering problems was considered, and some mathematical and numerical analyses (__C__^0^ Lagrangian finite elements combined with a fixed point algorithm)

We consider a system with three unknowns in a two-dimensional bounded domain which models the ow of a grade-two non-Newtonian uid. We propose to compute an approximation of the solution of this problem in two steps: addition of a regularization term, ÿnite element discretization of the regularized p

This paper describes a method for the numerical solution of a Riabouchinsky cavity flow. Application of a boundary element method leads to a system of non-linear equations. The mild singularity appearing at the separation point is treated with the introduction of a curved boundary element, which sat