Unstructured grid finite-element methods for fluid mechanics
- 1 June 1998
- journal article
- Published by IOP Publishing in Reports on Progress in Physics
- Vol. 61 (6) , 569-638
- https://doi.org/10.1088/0034-4885/61/6/001
Abstract
The development of unstructured grid-based, finite-element methods for the simulation of fluid flows is reviewed. The review concentrates on solution techniques for the compressible Euler and Navier-Stokes equations, employing methods which are based upon a Galerkin discretization in space together with an appropriate finite-difference representation in time. It is assumed that unstructured assemblies of triangles are used to achieve the spatial discretization in two dimensions, with unstructured assemblies of tetrahedra employed in the three-dimensional case. Adaptive grid procedures are discussed and methods for accelerating the iterative solution convergence are considered. The areas of incompressible flow modelling and optimization are also included.Keywords
This publication has 77 references indexed in Scilit:
- Least-squares finite element method for fluid dynamicsPublished by Elsevier ,2003
- Unstructured mesh generation including directional refinement for aerodynamic flow simulationFinite Elements in Analysis and Design, 1997
- A general algorithm for compressible and incompressible flow—Part I. the split, characteristic‐based schemeInternational Journal for Numerical Methods in Fluids, 1995
- Efficient three‐dimensional Delaunay triangulation with automatic point creation and imposed boundary constraintsInternational Journal for Numerical Methods in Engineering, 1994
- FINITE ELEMENT LEAST SQUARES SOLUTION OF THE EULER EQUATIONS USING LINEAR AND QUADRATIC APPROXIMATIONSInternational Journal of Computational Fluid Dynamics, 1993
- New directions in computational mechanicsNuclear Engineering and Design, 1989
- On the use of composite grid schemes in computational aerodynamicsComputer Methods in Applied Mechanics and Engineering, 1987
- Recent advances in computational methods for steady and transient transport problemsNuclear Engineering and Design, 1984
- Implicit Finite-Difference Simulation of Flow about Arbitrary Two-Dimensional GeometriesAIAA Journal, 1978
- Finite element methods for second order differential equations with significant first derivativesInternational Journal for Numerical Methods in Engineering, 1976