Multigrid flow solutions in complex two-dimensional geometries

over an obstacle is the production of lee waves, which can persist for long distances downstream, making the use of A robust multigrid method for the incompressible Navier-Stokes equations is presented and applied to the computation of viscous stretched grids unavoidable. When lee wave amplitudes fl

A methodology, bused on the ideas associated with the generalized integral transform technique, is presented for developing analytical solutions to sufJiently general two-dimensional (i.e. x and t space coordinates) dtflision type problems in arbitrarily shaped singl\_v or doubly connected regions w

## Abstract A Galerkin finite element solution is developed for the flow of fiber suspensions. Primary variables are velocity, pressure, and a second‐order tensor describing the fiber orientation. The model treats the orientation as three‐dimensional, includes fiber—fiber interaction effects, and u

A computationally efficient pseudospectral method is developed for incompressible flow simulations in two-dimensional geometries involving periodicity in one direction and significant surface deformations. A pseudoconformal mapping is used to map the flow domain into a rectangle, thereby establishin