A Fast, High Resolution, Second-Order Central Scheme for Incompressible Flows

We present new finite difference schemes for the incompressible Navier-Stokes equations. The schemes are based on two spatial differencing methods; one is fourth-order-accurate and the other is sixth-order accurate. The temporal differencing is based on backward differencing formulae. The schemes us

## Abstract This paper presents a new high‐order approach to the numerical solution of the incompressible Stokes and Navier–Stokes equations. The class of schemes developed is based upon a velocity–pressure–pressure gradient formulation, which allows: (i) high‐order finite difference stencils to be

In this paper, we propose a weakly compressible model for numerical simulation of the incompressible viscous ¯ows. This model asymptotically approximates the incompressible Navier±Stokes equations when the mach number tends to zero. The main advantage of this model is that its numerical discretizati

The paper addresses the problem of convection discretization by extension and application of numerical schemes used in compressible flows: SONIC-A, SONIC-B, UN02, MUSCL and MINMOD to predict steady incompressible recirculating convection dominated flows. A new scheme, SONIC-Q, is proposed together w