Numerical solution of 2D and 3D viscous incompressible steady and unsteady flows using artificial compressibility method

tions, and requires intense interpolations. Thus, ever since the collocated grid arrangement was proposed [5], stag-Pressure-based and artificial compressibility methods for calculating three-dimensional, steady, incompressible viscous flows are gered grids have seldomly been used, while collocated

This paper uses a fourth-order compact finite-difference scheme for solving steady incompressible flows. The high-order compact method applied is an alternating direction implicit operator scheme, which has been used by Ekaterinaris for computing two-dimensional compressible flows. Herein, this nume

In this paper we develop and test an exponentially fitted finite volume method for the numerical solution of the Navier-Stokes equations describing \(2 D\) incompressible flows. The method is based on an Imsttuctured Delatmay mesh and its dhal Dischlet tessollation, comlined with a locally constant