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ADIGMA – A European Initiative on the Development of Adaptive Higher-Order Variational Methods for Aerospace Applications

Results of a Collaborative Research Project Funded by the European Union, 2006-2009

  • Conference proceedings
  • © 2010

Overview

Editors:
  1. Norbert Kroll

    1. German Aerospace Center (DLR), Braunschweig, Germany

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  2. Heribert Bieler

    1. Airbus Deutschland GmbH, Bremen, Germany

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  3. Herman Deconinck

    1. von Karman Institute for Fluid Dynamics (VKI), Rhode-St-Genese, Belgium

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  4. Vincent Couaillier

    1. ONERA, Châtillon, France

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  5. Harmen Ven

    1. NLR, Amsterdam, The Netherlands

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  6. Kaare Sørensen

    1. EADS Deutschland, Manching, Germany

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  • State-of-the-art of the Development of Adaptive Higher-Order Variational Methods for Aerospace Applications
  • Contains the Results of a collaborative research project funded by the European Union, 2006-2009

Part of the book series: Notes on Numerical Fluid Mechanics and Multidisciplinary Design (NNFM, volume 113)

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Table of contents (34 papers)

  1. Front Matter

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  2. The ADIGMA Project

    1. The ADIGMA Project

      • Norbert Kroll
      Pages 1-9

  3. Research Activities

    1. II.1 Higher-Order Discretization Methods

      1. Exploiting Data Locality in the DGM Discretisation for Optimal Efficiency
        • Koen Hillewaert
        Pages 11-23
      2. Very High-Order Accurate Discontinuous Galerkin Computation of Transonic Turbulent Flows on Aeronautical Configurations
        • F. Bassi, L. Botti, A. Colombo, A. Crivellini, N. Franchina, A. Ghidoni et al.
        Pages 25-38
      3. Incorporating a Discontinuous Galerkin Method into the Existing Vertex-Centered Edge-Based Finite Volume Solver Edge
        • Sven-Erik Ekström, Martin Berggren
        Pages 39-52
      4. Explicit One-Step Discontinuous Galerkin Schemes for Unsteady Flow Simulations
        • Arne Taube, Gregor Gassner, Claus-Dieter Munz
        Pages 53-65
      5. RKDG with WENO Type Limiters
        • Jianxian Qiu, Jun Zhu
        Pages 67-80
      6. IPG Discretizations of the Compressible Navier-Stokes Equations
        • Vít Dolejší, Martin Holík, Jiří Hozman
        Pages 81-93
      7. Development of Discontinuous Galerkin Method for RANS Equations on Multibloc Hexahedral Meshes
        • F. Renac
        Pages 95-106
      8. Construction of High-Order Non Upwind Distribution Schemes
        • R. Abgrall, A Larat, M. Ricchiuto
        Pages 107-128
      9. High Order Residual Distribution Schemes Based on Multidimensional Upwinding
        • N. Villedieu, T. Quintino, M. Vymazal, H. Deconinck
        Pages 129-143
      10. Higher-Order Stabilized Finite Elements in an Industrial Navier-Stokes Code
        • Frédéric Chalot, Pierre-Elie Normand
        Pages 145-165
      11. A Third-Order Finite-Volume Residual-Based Scheme on Unstructured Grids
        • Xi Du, Christophe Corre, Alain Lerat
        Pages 167-180
      12. Investigation of Issues Relating to Meshing for Higher-Order Discretizations
        • Craig Johnston, Jeremy Gould
        Pages 181-193
      13. Synthesis Report on Shock Capturing Strategies
        • Arne Taube, Claus-Dieter Munz
        Pages 195-207

    2. II.2 Solution Strategies

      1. Implicit Strategy and Parallelization of a High Order Residual Distribution Scheme
        • R. Abgrall, R. Butel, P. Jacq, C. Lachat, X. Lacoste, A. Larat et al.
        Pages 209-224
      2. Hybrid Multigrid DG/FV Methods for Viscous Turbulent Flows
        • V. Couaillier, F. Renac, M. C. Le Pape
        Pages 225-242
      3. Semi-implicit Time Discretization of the Discontinuous Galerkin Method for the Navier-Stokes Equations
        • Vít Dolejší, Martin Holík, Jiří Hozman
        Pages 243-255
      4. Multigrid Optimization for Space-Time Discontinuous Galerkin Discretizations of Advection Dominated Flows
        • S. Rhebergen, J. J. W. van der Vegt, H. van der Ven
        Pages 257-269
      5. COOLFluiD – A Collaborative Simulation Environment for Research in Aerodynamics
        • T. Quintino, H. Deconinck
        Pages 271-285
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Keywords

About this book

<P>This volume contains results gained from the EU-funded 6th Framework project ADIGMA (Adaptive Higher-order Variational Methods for Aerodynamic Applications in Industry). The goal of ADIGMA was the development and utilization of innovative adaptive higher-order methods for the compressible flow equations enabling reliable, mesh independent numerical solutions for large-scale aerodynamic applications in aircraft industry. The ADIGMA consortium was comprised of 22 organizations which included the main European aircraft manufacturers, the major European research establishments and several universities, all with well proven expertise in Computational Fluid Dynamics (CFD). The book presents an introduction to the project, exhibits partners’ methods and approaches and provides a critical assessment of the newly developed methods for industrial aerodynamic applications. The best numerical strategies for integration as major building blocks for the next generation of industrial flow solvers are identified. </P>

Editors and Affiliations

  • German Aerospace Center (DLR), Braunschweig, Germany

    Norbert Kroll

  • Airbus Deutschland GmbH, Bremen, Germany

    Heribert Bieler

  • von Karman Institute for Fluid Dynamics (VKI), Rhode-St-Genese, Belgium

    Herman Deconinck

  • ONERA, Châtillon, France

    Vincent Couaillier

  • NLR, Amsterdam, The Netherlands

    Harmen Ven

  • EADS Deutschland, Manching, Germany

    Kaare Sørensen

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