Approximation of variable density incompressible flows by means of finite elements and finite volumes

In this article, we study finite volume element approximations for two-dimensional parabolic integrodifferential equations, arising in the modeling of nonlocal reactive flows in porous media. These types of flows are also called NonFickian flows and exhibit mixing length growth. For simplicity, we c

When attempting to compute unsteady, variable density flows at very small or zero Mach number using a standard finite volume compressible flow solver one faces at least the following difficulties: (i) Spatial pressure variations vanish as the Mach number M → 0, but they do affect the velocity field

The variational multiscale method provides a methodical framework for large eddy simulation of turbulent ows. In this work, a particular implementation in the form of a three-level ÿnite element method separating large resolved, small resolved, and unresolved scales is proposed. Residual-free bubble

Multigrid and iterative methods are used to reduce the solution time of the matrix equations which arise from the finite element (FE) discretisation of the time-independent equations of motion of the incompressible fluid in turbulent motion. Incompressible flow is solved by using the method of reduc