Computational methods in aeronautical fluid dynamics : based on the proceedings of a conference organized by the Institute of Mathematics and Its Applications on computational methods in aeronautical fluid dynamics, held at the University of Reading in April 1987

Bibliographic Information

Computational methods in aeronautical fluid dynamics : based on the proceedings of a conference organized by the Institute of Mathematics and Its Applications on computational methods in aeronautical fluid dynamics, held at the University of Reading in April 1987

edited by P. Stow

(The Institute of Mathematics and its Applications conference series, new ser., 25)

Clarendon Press , Oxford University Press, 1990

Available at  / 19 libraries

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Description and Table of Contents

Description

The use of numerical modelling and testing is a vital engineering tool in all aspects of the aerospace industry: aerodynamics, heat transfer, and stress and vibration levels. This volume provides an overview of the current state of the art of this research and is designed as a reference for people whose work involves computational fluid dynamics, giving current results of research and an indication of the new directions it might take. Particular topics covered include integral methods, boundary layer and viscous flows, turbulence modelling, vortex dynamics, Navier-Stokes for external aerodynamics, mesh generation and adaptive refinement, and hypersonic flow. Throughout, the emphasis is on real problems arising in aerodynamics and the numerical methods used in their solution.

Table of Contents

  • A numerical study of the aerodynamic interference of a model support system used in the RAE 5m wind tunnel, B.C.Hardy
  • modelling winglets using the SPARV computer program, J.S.Smith
  • integral methods at British Aerospace Brough, P.M.Sinclair
  • integral method - theoretical and practical aspects, J.Bousquet, P.Eichel, V.Rivoire and T.Surply
  • analysis and computation of turbulent boundary layers with varying pressure gradients, J.C.R.Hunt, T.M.J.Newley and W.S.Weng
  • unsteady viscous-inviscid interaction method and computation of buffeting over airfoils, P.Girodroux-Lavigne and J.C.Le Balleur
  • coupling of turbulence models with Reynolds-averaged compressible Navier-Stokes equations - application to shock interactions, D.Vandromme and H.Haminh
  • nearly Navier-Stokes solutions, P.Bradshaw
  • coupled inviscid - boundary layer methods for turbomachinery blading design, P.Stow and S.P.Newman
  • boundary layer transition and the development of intermittent turbulence - fact, fiction and CFD, D.I.A. Poll
  • turbulence modelling and some industrial applications, A.Jami
  • a three dimensional point vortex method for unsteady incompressible flows, B.Cantaloube
  • vortex flow modelling with Euler and Navier-Stokes equations, A.Rizzi and B.Muller
  • some Navier-Stokes solutions for external flows, W.Kordulla
  • Navier-Stokes methods for turbomachinery blade design, N.T.Birch, J.D.Northall and P.Stow
  • adaptive remeshing applied to the solution of a shock interaction problem on a cylindrical leading edge, K.Morgan, J.Peraire, J.Peiro and O.C.Zienkiewicz
  • grid generation - structured, unstructured or both?, N.P.Weatherill
  • the modelling of inlet skew in turbomachinery, J.A.Walsh, D.G.Gregory-Smith and J.G.E.Cleak
  • calculation of the flow over afterbodies, showing the effects of Mach number and jet pressure ratio, D.R.Glynn and J.C.Ludwig
  • some structural improvements to model closure for wake/boundary layer interactions and manipulated flows?, A.M.Savill
  • an investigation of flow properties in a transonic flow over a circular-arc model using a Navier-Stokes code, N.Chokani and L.C.Squire.

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