This volume presents a number of important papers focusing on topics of current interest to applied mathematicians and numerical analysts working on computational fluid dynamics, with particular emphasis on the aeronautical industry. Topics include real gas effects and flows at high Mach
number; grid generation and adaptation schemes, different methods of discretising the governing differential equations, and solving the resulting problems of linear algebra; how development of approximate models of turbulence involve compromises between speed of computation, generality, and
accuracy; the analysis of aeronautical flows using zonal models; and the application and validation of CFD methods. This book will be of interest to numerical analysts in both university and industrial research departments.
This volume presents a number of important papers focusing on topics of current interest to applied mathematicians and numerical analysts working on computational fluid dynamics, with particular emphasis on the aeronautical industry. Topics include real gas effects and flows at high Mach number; grid generation and adaptation schemes, different methods of discretising the governing differential equations, and solving the resulting problems of linear algebra; how development of approximate models of turbulence involve compromises between speed of computation, generality, and accuracy; the analysis of aeronautical flows using zonal models; and the application and validation of CFD methods. This book will be of interest to numerical analysts in both university and industrial research departments.
Part 1 High mach number and real gas effects: mathematical problems
associated with computing flow of real gases, P.L. Roe; hypersonic flow for
re-entry, G.S. Deiwert and G.V. Candler; hypersonic flow computations with
real gas effect and centered difference schemes, J.B. Vos et al; coupling
Boltzman and fluid equations, F. Coron; three-dimensional hypersonic flow
simulation around Hermes, M. Mallet et al. Part 2 Grid generations,
discretization methods and solvers: fininte volume methods with explicit
shock representation, K.W. Morton and M.A. Rudgyard; fluid-split calculations
for equilibrium real gas flows in hypersonics, J.-L. Montagne; a three
dimensional hybrid structures-unstructured method - motivation, basic
approach and initial results, J.A. Shaw et al; fininte element method and
turbulence modelling for internal flows, D. Jeandel et al. Part 3 Models for
turbulence and transition: current trends in turbulence modelling, W. Rodi;
the application of renormalization group methods to the subgrid modelling
problem, W.D. McComb et al. Part 4 Zonal methods: new possibilities of
numerical viscous-inviscid coupling for viscous flow with massive separation
and for inviscid zonal-methods, J.C. Le Balleur; vorticity dynamics of the
near field of strong jets in cross flows - S.L.V. Coelho and J.C.R. Hunt.
Part 5 Validation and application of CFD: an overview of CFD as applied
within Rolls-Royce plc, T.R. Kingston; validation of CFD methods for
transonic aerofoil and wing flows, J.L. Fulker and P.R. Ashill; application
of computational systems to aircraft engine components development, G.
Karadimas.
