An acoustic/viscous splitting technique for computational aeroacoustics

## Abstract Computation of the acoustic disturbances generated by unsteady low‐speed flow fields including vortices and shear layers is considered. The equations governing the generation and propagation of acoustic fluctuations are derived from a two‐step acoustic/viscous splitting technique. An op

This work is concerned with the development of a numerical scheme capable of producing accurate simulations of sound propagation in the presence of a mean flow field. The method is based on the concept of variable decomposition, which leads to two separate sets of equations. These equations are the

An improved Navier±Stokes solver is presented to compute two-dimensional incompressible ¯ows in the stream±vorticity formulation at high Reynolds number. The technique is based on both the IMM for the nonorthogonal co-ordinate system and a specialized TVD scheme to cope with non-linear transport ter

A set of non-homogeneous radiation and outflow boundary conditions which automatically generate prescribed incoming acoustic or vorticity waves and, at the same time, are almost transparent to outgoing sound waves produced internally in a finite computation domain is proposed. This type of boundary

This work was sponsored under the Program in Ocean Surface Processes and Remote Sensing at the University of Michigan, funded under the University Research Initiative of the Office of Naval Research, Contract N00014-92-J1650.