The paper's focus is the calculation of unsteady incompressible 2D flows past airfoils. In the framework of the primitive variable Navier–Stokes equations, the initial and boundary conditions must be assigned so as to be compatible, to assure the correct prediction of the flow evolution. This requirement, typical of all incompressible flows, viscous or inviscid, is often violated when modelling the flow past immersed bodies impulsively started from rest. Its fulfillment can however be restored by means of a procedure enforcing compatibility, consisting in a pre-processing of the initial velocity field, here described in detail. Numerical solutions for an impulsively started multiple airfoil have been obtained using a finite element incremen...
A novel vorticity based solution methodology has been developed to compute unsteady flow, particular...
A velocity–pressure algorithm, in primitive variables and finite differences, is developed for incom...
A basic objective in computational fluid dynamics is the efficient solution of nonlinear systems of ...
The paper's focus is the calculation of unsteady incompressible 2D flows past airfoils. In the frame...
Abstract: This is the first of a series of papers on the subject of projection methods for viscous i...
The two-dimensional unsteady motion of viscous incompressible fluid around an aerofoil at a large an...
none5This paper provides an analysis of a projection method for the solution of the unsteady incompr...
A coupled solution procedure is described for solving the time-dependent Navier-Stokes equations in ...
This monograph is intended as a concise and self-contained guide to practitioners and graduate stude...
The problem of studying the behaviour of a fluid moving past a body constitutes a classical area of ...
Progress in validating incompressible Navier-Stokes codes is described using a predictor/corrector s...
Numerical solutions are obtained for two-dimensional incompressible turbulent viscous flow over airf...
Steady and unsteady flowfields around an airfoil are simulated numerically using a compressible Navi...
The initial stage of the plane unsteady flow caused by the impulsive vertical motion of a wedge init...
The velocity correction method is designed to simulate stationary and non-stationary, two- and three...
A novel vorticity based solution methodology has been developed to compute unsteady flow, particular...
A velocity–pressure algorithm, in primitive variables and finite differences, is developed for incom...
A basic objective in computational fluid dynamics is the efficient solution of nonlinear systems of ...
The paper's focus is the calculation of unsteady incompressible 2D flows past airfoils. In the frame...
Abstract: This is the first of a series of papers on the subject of projection methods for viscous i...
The two-dimensional unsteady motion of viscous incompressible fluid around an aerofoil at a large an...
none5This paper provides an analysis of a projection method for the solution of the unsteady incompr...
A coupled solution procedure is described for solving the time-dependent Navier-Stokes equations in ...
This monograph is intended as a concise and self-contained guide to practitioners and graduate stude...
The problem of studying the behaviour of a fluid moving past a body constitutes a classical area of ...
Progress in validating incompressible Navier-Stokes codes is described using a predictor/corrector s...
Numerical solutions are obtained for two-dimensional incompressible turbulent viscous flow over airf...
Steady and unsteady flowfields around an airfoil are simulated numerically using a compressible Navi...
The initial stage of the plane unsteady flow caused by the impulsive vertical motion of a wedge init...
The velocity correction method is designed to simulate stationary and non-stationary, two- and three...
A novel vorticity based solution methodology has been developed to compute unsteady flow, particular...
A velocity–pressure algorithm, in primitive variables and finite differences, is developed for incom...
A basic objective in computational fluid dynamics is the efficient solution of nonlinear systems of ...