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Reactive Flows, Diffusion and Transport

From Experiments via Mathematical Modeling to Numerical Simulation and Optimization

  • Conference proceedings
  • © 2007

Overview

Editors:
  1. Willi Jäger

    1. Interdisziplinäres Zentrum für Wissenschaftliches Rechnen (IWR), Universität Heidelberg, Heidelberg, Germany

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  2. Rolf Rannacher

    1. Interdisziplinäres Zentrum für Wissenschaftliches Rechnen (IWR), Universität Heidelberg, Heidelberg, Germany

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  3. Jürgen Warnatz

    1. Interdisziplinäres Zentrum für Wissenschaftliches Rechnen (IWR), Universität Heidelberg, Heidelberg, Germany

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Table of contents (26 papers)

  1. Front Matter

    Pages I-X
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  2. Mathematical Analysis for Transport-Reaction Systems

    1. Front Matter

      Pages 1-3
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    2. Fluid Flows and Free Boundaries

      • B. Schweizer, S. Bodea, C. Surulescu, I. Surovtsova
      Pages 5-24

    3. Nonlinear Evolution Equations and Applications

      • W. Jäger, Th. Lorenz, A. Tambulea
      Pages 25-41

  3. Navier-Stokes Equations and Chemical Reactions

    1. Front Matter

      Pages 43-46
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    2. Mesh and Model Adaptivity for Flow Problems

      • R. Becker, M. Braack, R. Rannacher, T. Richter
      Pages 47-75

    3. Parallel Multigrid on Locally Refined Meshes

      • R. Becker, M. Braack, T. Richter
      Pages 77-92

    4. Solving Multidimensional Reactive Flow Problems with Adaptive Finite Elements

      • M. Braack, T. Richter
      Pages 93-112

  4. Optimization Methods for Reactive Flows

    1. Front Matter

      Pages 113-115
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    2. Robustness Aspects in Parameter Estimation, Optimal Design of Experiments and Optimal Control

      • H. G. Bock, S. Körkel, E. Kostina, J. P. Schlöder
      Pages 117-146

    3. Multiple Set Point Partially Reduced SQP Method for Optimal Control of PDE

      • H. G. Bock, E. Kostina, A. Schäfer, J. P. Schlöder, V. Schulz
      Pages 147-175

    4. Adaptive Finite Element Methods for PDE-Constrained Optimal Control Problems

      • R. Becker, M. Braack, D. Meidner, R. Rannacher, B. Vexler
      Pages 177-205

  5. Chemical Reaction Systems

    1. Front Matter

      Pages 207-210
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    2. Determination of Kinetic Parameters in Laminar Flow Reactors. I. Theoretical Aspects

      • T. Carraro, V. Heuveline, R. Rannacher
      Pages 211-249

    3. Determination of Kinetic Parameters in Laminar Flow Reactors. II. Experimental Aspects

      • A. Hanf, H. -R. Volpp, J. Wolfrum
      Pages 251-289

    4. Optimization of Reactive Flows in a Single Channel of a Catalytic Monolith: Conversion of Ethane to Ethylene

      • H. G. Bock, O. Deutschmann, S. Körkel, L. Maier, H. D. Minh, J. P. Schlöder et al.
      Pages 291-310

    5. Reaction Processes on Catalytically Active Surfaces

      • O. R. Inderwildi, D. Starukhin, H. -R. Volpp, D. Lebiedz, O. Deutschmann, J. Warnatz
      Pages 311-340

    6. Stochastic Modeling and Deterministic Limit of Catalytic Surface Processes

      • J. Starke, C. Reichert, M. Eiswirth, K. Oelschläger
      Pages 341-370

  6. Turbulent Flow and Combustion

    1. Front Matter

      Pages 371-373
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    2. Multigrid Methods for Large-Eddy Simulation

      • A. Gordner, S. Nägele, G. Wittum
      Pages 375-396
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Keywords

About this book

The articles in this volume summarize the research results obtained in the former SFB 359 "Reactive Flow, Diffusion and Transport" which has been supported by the DFG over the period 1993-2004. The main subjects are physical-chemical processes sharing the difficulty of interacting diffusion, transport and reaction which cannot be considered separately. Typical examples are the chemical processes in flow reactors and in the catalytic combustion at surfaces. Further examples are models of star formation including diffusive mass transport, energy radiation and dust formation and the polluting transport in soil and waters. For these complex processes mathematical models are established and numerically simulated. The modeling uses multiscale techniques for nonlinear differential equations while for the numerical simulation and optimization goal-oriented mesh and model adaptivity, multigrid techniques and advanced Newton-type methods are developed combined with parallelization. This modeling and simulation is accompanied by experiments.

Editors and Affiliations

  • Interdisziplinäres Zentrum für Wissenschaftliches Rechnen (IWR), Universität Heidelberg, Heidelberg, Germany

    Willi Jäger, Rolf Rannacher, Jürgen Warnatz

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