The application of multigrid to Navier-Stokes simulation of 3D flow in axial and radial flow turbomachinery

In the present work, a centrifugal pump impeller's blades shape was redesigned to reach a higher efficiency in turbine mode using two different optimization algorithms: one is a local method as incomplete sensitivities-gradient based optimization algorithm coupled by 3D Navier-Stokes flow solver, an

A novel Navier-Stokes solver based on the boundary integral equation method is presented. The solver can be used to obtain flow solutions in arbitrary 2D geometries with modest computational effort. The vorticity transport equation is modelled as a modified Helmholtz equation with the wave number de

A new multilevel methodology is developed in this study to provide a successful numerical simulation for the whole process of flow transition in 3D flat plate boundary layers, including linear growth, secondary instability, breakdown, and transition on a relatively coarse grid with low CPU cost. For

This paper studies the e ciency of two ways to treat the non-linear convective term in the timedependent incompressible Navier-Stokes equations and of two multigrid approaches for solving the arising linear algebraic saddle point problems. The Navier-Stokes equations are discretized by a secondorder