Numerical simulations of transonic aerodynamic flows based on a hierarchical formulation

This paper describes the use of adaptive hierarchical grids to predict incompressible separated ¯ow at low Reynolds number. The grids consist of a quadtree system of hierarchical Cartesian meshes which are generated by recursive subdivision about seeding points. The governing equations are discretiz

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

## Abstract This paper explores some numerical alternatives that can be exploited to derive efficient low‐order models of the Navier–Stokes equations. It is shown that an optimal solution sampling can be derived using appropriate norms of the Navier–Stokes residuals. Then the classical Galerkin app

## Abstract A numerical simulation has been performed to clarify the effects of turbulence in a liquid on the deformation of the liquid jet surface into an air flow. The turbulences in the liquid jet were simulated by the Rankin vortices, and the liquid jet surface was tracked numerically by the vo