Numerical Flow Simulation I

Inhaltsverzeichnis

• A Parallel Hybrid Highly Accurate Elliptic Solver for Viscous Flow Problems.
• Adaptively Defined Cartesian Grid Generation and Euler Flow Solutions for Arbitrary Geometries.
• Combined Finite Volume and Smoothed Particle Method.
• The Appropriate Numbering for the Multigrid Solution of Convection Dominated Problems.
• Development of Navier-Stokes Solvers on Hybrid Grids.
• High Performance Computer Codes and Their Application to Optimize Crystal Growth Processes.
• Multigrid Methods for Two Phase Flows.
• Modeling of Free Surfaces in Casting Processes.
• Turbulent Convection Driven by an Imposed Temperature Gradient in the Presence of a Constant Vertical Magnetic Field.
• Numerical Simulation of Combustion in Partially Premixed Turbulent Flows.
• Numerical Modeling of Gas Flows in the Transition Between Rarefied and Continuum Regimes.
• Numerical Techniques for Mulit-Scale Weakly Compressible Reactive Flows.
• Computation of Vortex-Shedding Flows Past a Square Cylinder Employing LES and RANS.
• Numerical Simulation of Turbulent High Speed Flows (Supersonic Combustion & Atomization and Mixing).
• Simulation of Spatially Developing Plane and Round Jets.
• Large Eddy Simulation of Flow Around Circular Cylinders on Structured and Unstructured Grids.
• Towards an Adaptive Wavelet-Based 3D Navier-Stokes Solver.
• The Minimal Turbulent Flow Unit as a Test Case for Three Different Computer Codes.
• Applications of a 4-th Order Hermitian Scheme for Non-Equidistant Grids to LES and DNS of Incompressible Fluid Flow.
• Computation of Complex Turbulent Flows.