Welcome to the von Karman Institute for Fluid Dynamics Store

Verification and validation of computational fluid dynamics - hardcover

Be the first to review this product

Availability: In stock

€110.00
OR

Quick Overview

VKI LS 2000-08, Verification and validation of computational fluid dynamics

Verification and validation of computational fluid dynamics

Double click on above image to view full picture

Zoom Out
Zoom In

More Views

  • Verification and validation of computational fluid dynamics

Details

Verification and validation of computational fluid dynamics
In association with the Thematic Network FLOWNET (European Commission DG XII)
June 5 - 8, 2000; F. Grasso, J. Périaux, H. Deconinck
Table of content
  • DENIAU, H.; LAMBALLAIS, E.; DELVILLE, J.; ALZIARY DE ROQUEFORT, T. - Laboratoire d'Etudes Aerodynamiques - UMR CNRS, France
    Validation for turbulence modeling
  • DÉLERY, J. & CHANETZ, B. - ONERA, France
    Experimental aspects of code verification/validation - Application to internal aerodynamics
  • PANDOLFI, M. & D'AMBROSIO, D. - Politecnico di Torino, Italy
    Verification and validation: numerical issues
  • GARBEY, M. & TROMEUR DERVOUT, D. - ISTIL/University Lyon 1 Claude Bernard, France
    Code verification in parallel computing environment
    Toward a learning system in scientific computing
  • DÉSIDÉRI, J.-A.1 & PÉRIAUX, J.2 - INRIA1 & Dassault Aviation2, France
    The role of databases for CFD validation
    Part I: Validation of high-speed flow simulations by means of network data base
  • LESERVOISIER, D.1,2; CARTE, G.1; DERVIEUX, A.1 - INRIA1 & SNECMA2, France
    The role of databases for CFD validation
    Part II: High-order interpolation and mesh optimization for validated CFD
  • FARHAT, C.1; LESOINNE, M.1; KOOBUS, B.2,3 - CAS1, Université de Montpellier2, INRIA3, USA1 & France 2,3
    The role of databases for CFD validation
    Part III: An example testcase from the FLOWnet database: Flutter analysis of an AGARD Wing 445.6
  • SCHWAMBORN, D. - DLR, Germany
    Verification and validation: examples for a solver using hybrid unstructured grids
  • GRASSO, F.1; PÉRIAUX, J.2; DÉSIDÉRI, J.-A.3 - Univ. di Roma La Sapienza 1, Dassault Aviation 2, INRIA3, Italy1 & France2,3
    The FLOWNET project: a flow library on the web
  • OBERKAMPF, W.L. - Sandia National Laboratories, USA
    Introduction to verification and validation
    Design, execution, and analysis of validation experiments

FLOWNET CASE STUDIES

  • WEINERFELT, P. - SAAB, Sweden
    TEST CASE SB04: High lift Navier-Stokes calculations and experimental data for the 2D NLR 7301 wing-flap geometry
  • BUR, R. & DÉLERY, J. - ONERA, France
    TEST CASE TR03: 3-D transonic interaction on a swept bump
  • HENZE, A. - RWTH Aachen, Germany
    TEST CASE SP06: Contribution to SP06: ELAC-I delta wing
  • ZEITOUN, D.E. - Université de Provence-IUSTI-UMR, France
    Supersonic shock wave reflections in steady flows
    Test Case SP 10 - FLOWNet database
  • DIEUDONNÉ, W.; BOERRIGTER, H.L.; CHARBONNIER, J.-M. - von Karman Institute, Belgium
    Test Case H05 - Hypersonic flow on a blunted cone-flare and in the VKI-H3
    Mach 6 wind tunnel
  • ARTS, T. - von Karman Institute, Belgium
    TEST CASE TU02: Aero-thermal performance of a high pressure turbine nozzle guide vane
  • KANG, S.; LACOR, C.; HIRSCH, C. - VUB, Belgium
    TEST CASE W01: Simulation of the flow through the NREL windturbine (W01)
  • HAASE, W. - Daimler Chrysler Aerospace, Germany
    Test Case MO - Two-point Airfoil Optimization
  • SCHWAMBORN, D. - DLR, Germany
    TEST CASE: UF03 The Oscillating Delta Wing
  • CELLI, M; FANION, T.; ROGE, G. - Dassault Aviation, France
    TEST CASE MF02: Flutter analysis of an AGARD 445.6 wing

Additional Information

Manufacturer von Karman Institute for Fluid Dynamics

Product Tags

Use spaces to separate tags. Use single quotes (') for phrases.