Overview

Leading authorities from industry and academia met at this established international conference. Their expert contributions cover an extensive range of topics in computational fluid dynamics, reveiwing recent advances in mathematical and computational fluid techniques for modelling fluid flows. For graduate students and researchers alike these proceedings provide a fully up-to-date account of the research currently underway in this central topic in fluid dynamics.

Full Product Details

Author:   M. J. Baines (Department of Mathematics, Department of Mathematics, University of Reading) ,  K. W. Morton (Professor, Mathematical Institute, Professor, Mathematical Institute, University of Oxford)
Publisher:   Oxford University Press
Imprint:   Clarendon Press
Dimensions:   Width: 16.00cm , Height: 4.00cm , Length: 24.10cm
Weight:   1.200kg
ISBN:  

9780198536963

ISBN 10:   0198536968
Pages:   622
Publication Date:   06 January 1994
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   To order  
Stock availability from the supplier is unknown. We will order it for you and ship this item to you once it is received by us.

Table of Contents

Invited Papers 1: K.W. Morton: Node-cell mappings for the cell vertex method 2: D. Catherall: Solution adaptivity with structured grids 3: Bernadette Palmerio: Mesh adaption for compressible flows 4: C.L. Farmer: Grid generation as a discrete optimisation problem 5: Eitan Tadmor: Super-viscosity and spectral approximations of nonlinear conservation laws 6: P.L. Roe: Waves in discrete fluids 7: S. Hickmott, A.G. Hutton, M. Rabbitt and R.M. Smith: Practical flow simulation employing high order accuracy, implicit, finite element based algorithms 8: Bengt Fornberg: Computing stready incompressible flows past blunt bodies - A historical overview 9: H.C. Yee, P.K. Sweby, and A. Lafon: Basins of attraction and the time-dependent approach to obtaining steady-state numerical solutions 10: Maurizio Pandolfi: Physical and numerical aspects of non-equilibrium flows 11: Randall J. LeVeque: Simplified multi-dimensional flux limiter methods 12: Bertil Gustafsson and Per Loetstedt: Convergence acceleration for first order systems 13: Barry Koren, Marie-Helene Lallemand: Iterative defect correction and multigrid accelerated explicit time stepping for the steady Euler equations 14: J. Peraire, M. Vahdati and J. Peiro and K. Morgan: The construction and behaviour of some Contributed Papers 15: Th. Sonar, V. Hannemann, O. Friedrich: Adaptive concepts for the resolution of compressible flow by upwind finite volume methods 16: U. Goehner, G. Warnecke, W. Wendland: Adaptive finite elements for transonic flows 17: Alain Dervieux, Lopula Fezoui, Marie-Pierre Leclercq and Bruno Stoufflet: A general upwind formulation for compressible flows on multi-element meshes 18: Michael G. Edwards: A dynamically adaptiove Godunov scheme for reservoir simulation on large aspect ratio grids 19: Ron Trompert: Local uniform mesh refinement and brine transport in porous media 20: A. Lerat and Z.N. Wu: A subdomain matching condition for implicit Euler solvers 21: R. Arina and S. Tarditi: Orthogonal block structured surface grids 22: Masahiro Suzuki: Surface grid generation with a linkage to geometric generation 23: Bonita V. Saunders: Boundary fitted grid generation using tensor product B-splines 309 24: Gary P. Warren, W. Kyle Anderson, James L. Thomas, Sherrie L. Krist: Grid convergence for adaptive methods 25: A.E.P. Veldman and E.F.F. Botta: Grid quality: an interplay of grid and solver 26: S.A.E.G. Falle and J.R. Giddings: Body capturing using adaptive cartesian grids 27: Bassi F., Rebay S. and Savini M.: A high resolution discontinuous Galerkin method for hyperbolic problems on unstructured grids 28: R. Richter and P. Leyland: Shock capturing using auto-adaptive finite elements 29: G. Lacombe and A. Lerat: On the steady-state accuracy of an implicit Navier-Stokes solver of Lax-Wendroff type 30: E.F. Toro: Riemann solvers: linearizations and adaption 31: James J. Quirk: A cartesian grid scheme for gas dynamic flows that involve complex geometries 32: Andrew Priestley: Recent developments of the Lagrange-Calerkin method 33: Alison Ramage and Andrew J. Wathen: Iterative solution technique for the Lagrange-Galerkin method 401 34: E. Suli and A. Ware: The spectral Lagrange-Galerkin method for the Navier-Stokes equations 35: I.J. Sobey and T. Mullin: Calculation of multiple solutions for the two-dimensional Navier-Stokes equations 36: Florian De Vuyst: A new implicit second order scheme based on a kinetic interpretation for solving the Euler Equations 37: Mark H. Mawson: A solution method for the shallow water Quasi-equilibrium equations on the sphere 38: Steven R. Allmaras: Contamination of laminar boundary layers by artificial dissipation in Navier-Stokes solutions 39: J. Blazek, N. Kroll, C.C. Rossow: A comparison of several implicit smoothing methods 40: P. Tattersall and J. McGuirk: Numerical diffusion estimates as input for grid adaption 41: David W. Zingg and Harvard Lomax: On the eigensystems associated with numerical boundary schemes for hyperbolic equations 42: K. Engel, M. Faden, S. Pokorny: Implementation of non-reflecting boundary conditions in an unsteady flow simulation system 43: Rosemary A. Renaut: Absorbing boundary conditions for acoustic and elastic waves 44: P.N. Childs and J.A. Shaw: Generation and analysis of hybrid structured/unstructured grids 45: C. Mensink, H. Deconinck: A 2D multiblock method for viscous and inviscid flow computations 46: J.A. Mackenzie, D.F. Mayers and A.J. Mayfield: Error estimates for adaptive cell vertex finite volume algorithms 47: Gabriele C. Hegerl, Albert Sachs: Energy-reduced boundary conditions for the simulation of compressible viscous flows in domains with moving boundaries 48: Erik Dick and Kris Riemslagh: Multi-stage Jacobi relaxation as smoother in a multigrid method for steady Euler equations 49: S.H. Onslow and C.M. Albone: Multigrid convergence acceleration of an upwind Euler algorithm on multiply-embedded meshes 50: Lixia Wing and David A. Caughey: Implicit multigrid algorithm for Euler equations on block-structured grids with discontinuous interfaces 51: Michael Rudgyard: A comparison of multidimensional upwinding for cell vertex schemes on triangular meshes 52: P.K. Jimack: A new approach to finite element error control for time-dependent problems 53: Jaakko Hoffren and Timo Siikonen: Time-accurate calculations with an implicit Euler-Navier-Stokes solver 54: N. Qin, X. Xu and B.E. Richards: SFDN-*a-GMRES and SQN-*a-GMRES methods for fast high resolution N-S simulations 55: A.J. Peace: Towards a cell-vertex multi-grid Navier-Stokes algorithm for three-dimensional structured/unstructured meshes

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