Add to ORKGA numerical model has been developed which simulates the three-dimensional stability and transition of a periodically forced free shear layer in an incompressible fluid. Unlike previous simulations of temporally evolving shear layers, the current simulations examine spatial stability. The spatial model accommodates features of free shear flow, observed in experiments, which in the temporal model are precluded by the assumption of streamwise periodicity; e.g., divergence of the mean flow and wave dispersion. The Navier-Stokes equations in vorticity-velocity form are integrated using a combination of numerical methods tailored to the physical problem. A spectral method is adopted in the spanwise dimension in which the flow variables, assumed ...
The transition to turbulence in boundary layers was investigated by direct numerical solution of the...
Numerical experiments on finite difference solutions of time dependent two-dimensional Navier-Stokes...
A numerical scheme is developed to directly simulate laminar-turbulent transition in spatially evolv...
Numerical simulations of incompressible, two-dimensional, monochromatically and bichromatically forc...
Using a two-dimensional nonlinear numerical simulation of a (viscous) stratified shear layer, strong...
In this paper we present numerical techniques suitable for a direct numerical simulation in the spat...
The aim of this work is to formulate a computational algorithm to simulate the motion of a viscous f...
We perform direct numerical simulations of transitional and developed turbulent shear flows. The ade...
It is generally accepted that a linear stability theory, together with a slowly diverging base flow,...
We investigate the nonlinear development of a forced wave packet in the presence of a critical layer...
The temporal stability and growth characteristics of three-dimensional supersonic shear layers are n...
A numerical method that employs a combination of contour advection and pseudo-spectral techniques is...
For a family of oscillatory Stokes layers, the spatiotemporal evolution of impulsively excited distu...
Laminar-turbulent transition of high-deficit flat plate wakes is investigated by direct numerical si...
The effect of Mach number on the evolution of instabilities in the compressible mixing layer is inve...
The transition to turbulence in boundary layers was investigated by direct numerical solution of the...
Numerical experiments on finite difference solutions of time dependent two-dimensional Navier-Stokes...
A numerical scheme is developed to directly simulate laminar-turbulent transition in spatially evolv...
Numerical simulations of incompressible, two-dimensional, monochromatically and bichromatically forc...
Using a two-dimensional nonlinear numerical simulation of a (viscous) stratified shear layer, strong...
In this paper we present numerical techniques suitable for a direct numerical simulation in the spat...
The aim of this work is to formulate a computational algorithm to simulate the motion of a viscous f...
We perform direct numerical simulations of transitional and developed turbulent shear flows. The ade...
It is generally accepted that a linear stability theory, together with a slowly diverging base flow,...
We investigate the nonlinear development of a forced wave packet in the presence of a critical layer...
The temporal stability and growth characteristics of three-dimensional supersonic shear layers are n...
A numerical method that employs a combination of contour advection and pseudo-spectral techniques is...
For a family of oscillatory Stokes layers, the spatiotemporal evolution of impulsively excited distu...
Laminar-turbulent transition of high-deficit flat plate wakes is investigated by direct numerical si...
The effect of Mach number on the evolution of instabilities in the compressible mixing layer is inve...
The transition to turbulence in boundary layers was investigated by direct numerical solution of the...
Numerical experiments on finite difference solutions of time dependent two-dimensional Navier-Stokes...
A numerical scheme is developed to directly simulate laminar-turbulent transition in spatially evolv...