Numerical simulation of three-dimensional transonic flows

To investigate the time-dependent non-axisymmetric flow between two rotating cylinders, or the so-called Couette-Taylor problem, a numerical model to solve the three-dimensional Navier -Stokes equations is established. The projection method is employed to obtain the pressure Poisson equation first.

A computational method for three-dimensional flows is presented in terms of two stream functions, which may be considered as two components of a generalized vector potential. An iterative scheme is developed such that only a sequence of two-dimensional-like problems, for each function, is solved. Th

A new mathematical formulation, called the pseudovorticity-velocity formulation, of the three-dimensional incompressible NavierStokes equations is presented as an alternative to the vorticity-velocity approach. For the model lid-driven cavity flow problem in two and three dimensions, combined with a

Results are presented from a numerical simulation of three-dimensional ¯ow hydraulics around a mid-channel bar carried out using the FLUENT/UNS computational ¯uid dynamics (CFD) software package. FLUENT/ UNS solves the three-dimensional Reynolds-averaged form of the Navier±Stokes equations. Turbulen