Finite Elements in Fluids, Volume 7Richard H. Gallagher Wiley., 1988 - Finite element method Vol. 1-2, 3, 5- contain, respectively, selected papers from the [1st] (1974), 2nd (1976), 4th (1982)- International Symposium on Finite Element Methods in Flow Problems; v. 4 contains selected papers from the 3rd (1980) International Conference on Finite Elements in Flow Problems (Publisher uses this name for all the above conferences); |
Contents
F BENKHALDOUN INRIA SophiaAntipolis 06560 Valbonne France | 1 |
Finite Element Procedures for TimeDependent | 25 |
FORTIN Department of Mathematics Université Laval | 47 |
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accuracy algorithm analysis application approximation boundary conditions calculations Chebyshev collocation combustion component compressible compressible flow Comput computational fluid dynamics conservation constant convection convergence defined derived differential equations diffusion Dirichlet BC discontinuous discretization divergence-free domain eigenvalues error estimates Euler equations finite difference finite element method floating point flow fluid dynamics Fluid Mechanics formulation Galerkin method Glowinski gradient Gresho grid hyperbolic incompressible initial interpolation iteration J. T. Oden Lagrangian linear matrix Mech mesh momentum equation Navier-Stokes equations Neumann BC node non-linear Numerical Methods O. C. Zienkiewicz obtained operator Phys Poisson equation preconditioning pressure problem procedure R. H. Gallagher Reference rezone satisfy scheme shock shown in Figure simulation solving spectral methods stability steady step Stokes flow supersonic SUPG T. J. R. Hughes Taylor-Galerkin technique temperature tensor time-dependent tracer transonic turbulent V²u variables vector velocity field viscoelastic viscous Zienkiewicz αβ Δι