Finite Elements in Fluids, Volume 6Richard H. Gallagher Wiley, 1985 - 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
R H GALLAGHER | 1 |
A Threedimentional Twostep Explicit Finite Element Method | 9 |
Finite Element Solution of Viscous Flow Problems | 89 |
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algorithm analysis applied Axelsson block boundary conditions calculation coefficients Comp compressible flow conjugate gradient conjugate gradient method constant convection convergence coordinates defined denotes diagonal discretization domain Edited by R. H. efficient error estimates Euler equations factorization finite difference finite element method flow problems fluid formulation Fortin G. F. Carey Galerkin Galerkin method Glowinski grid group finite element incompressible inf-sup condition interpolation iterative methods J. T. Oden linear mass operators matrix Mech mesh Meth Navier-Stokes equations nodal nodes nonlinear O. C. Zienkiewicz obtained partial differential equations present pressure procedure R. H. Gallagher refinement Reynolds number satisfy the inf-sup scalar scheme Section shape functions shown in Figure simulation solution solving spin-up splitting steady-state step streamlines superconvergence techniques temperature three-dimensional time-split time-step V₁ values variables vector velocity viscous flow weight functions Zienkiewicz Ωρ ди