Numerical method for analysis of turbulent liquid metal magnetohydrodynamic flow

A spatially non-dissipative, implicit numerical method to simulate turbulent reacting flows over a range of Mach numbers, is described. The compressible Navier-Stokes equations are rescaled so that the zero Mach number equations are discretely recovered in the limit of zero Mach number. The dependen

The advected grid explicit (AGE) method for direct numerical simulation of 'incompressible' turbulent shear flows is presented. The Navier-Stokes equations are used for momentum in a velocity -pressure formulation. Mass continuity and an equation of state link pressure with density (which is not ass

come several intrinsic limitations of spectral methods, allowing for the use of the latter in a wider context . The primitive variable formulation of the unsteady incompressible Navier-Stokes equations in three space dimensions is discretized The most obvious application of spectral multidomain wit

Different realizations of variational multiscale (VMS) methods within the framework of finite element methods are studied in turbulent channel flow simulations. One class of VMS methods uses bubble functions to model resolved small scales whereas the other class contains the definition of the resolv

This study is to explore the numerical features of a particle-mesh algorithm developed for a stand-alone joint velocity-frequency-composition PDF method for turbulent reactive flows. Numerical experiments are performed on a piloted-jet nonpremixed turbulent flame of methane to characterize and quant