Numerical simulation and optimal shape for viscous flow by a fictitious domain method

A vortex particle method for the simulation of axisymmetric viscous flow is presented. The flow is assumed to be laminar and incompressible. The Navier-Stokes equations are expressed in an integral velocity-vorticity formulation. The inviscid scheme is based on Nitsche's method for axisymmetric vort

A new approach for optimal shape design is introduced. The main ingredients are an unstructured CAD-free framework for geometry deformation and automatic differentiation (AD) in reverse mode. Transonic inviscid and viscous turbulent ¯ows are investigated. Both two-and three-dimensional con®gurations

A new Galerkin ®nite element method for the solution of the Navier±Stokes equations in enclosures containing internal parts which may be moving is presented. Dubbed the virtual ®nite element method, it is based upon optimization techniques and belongs to the class of ®ctitious domain methods. Only o