Numerical computation of triangular cavity flows by a Lagrange-Galerkin scheme with a locally linearized velocity

Abstract

We show numerical results of triangular cavity flow problems solved by a Lagrange. Galerkin scheme free from numerical quadrature. The scheme has recently developed by us, where a locally linearized velocity and the backward Euler approximation are used in finding the position of fluid particle at the previous time step. Since the scheme can be implemented exactly as it is, the theoretical stability and convergence results are assured, while the conventional Lagrange-Galerkin schemes may encounter the instability caused by numerical quadrature errors. The scheme is employed to solve cavity flow problems in triangular domains, where we obtain two branches of stationary solutions.