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VKI LS 2010-02, Transport phenomena in electrochemical processes, hardcover, 1 volume, ISBN 978-2-930389-99-0

Transport phenomena in electrochemical processes

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TRANSPORT PHENOMENA IN ELECTROCHEMICAL PROCESSES
Edited by J. Deconinck, A. Hubin, J.P.A.J. van Beeck
VKI LS 2010-02, hardcover, 1 volume, ISBN 978-2-930389-99-0

The objective of these Lecture Series proceedings on Transport Phenomena in Electrochemical Systems is to present the state-of-the-art review of on-going activities in electrochemical processes and to outline current research directions.

Introductory lectures notes on the fundamentals of multi-scale transport phenomena, in particular for electrochemical processes, are followed by up-to-date reviews on numerical modeling and experimental results in single and two-phase flows.

The authors also give an appraisal of the future challenges and perspectives in the domain.

TABLE OF CONTENTS

DECONINCK, J. – Vrije Universiteit Brussel, Belgium
Transport in dilute solutions

VAN PARYS, H.; TOURWÉ, E.; HUBIN, A. – Vrije Universiteit Brussel, Belgium
Electrochemical Systems

TERRYN, H. – Vrije Universiteit Brussel, Belgium
Case study: Electrochemical behaviour of Al in different electrolytes

DICK, E.1 & KUBACKI, S.21Ghent University, Belgium & 2Warsaw University of Technology, Poland
Simulation of plane and round impinging jet heat and mass transfer with a RANS k-w model for electrochemical applications
Simulation of plane and round impinging jet heat transfer with k-ù based hybrid RANS/LES models for electrochemical applications

FRANSAER, J. & STAPPERS, L. – Katholieke Universiteit Leuven, Belgium
Mass transport measurements

VAN DAMME, S. – Vrije Universiteit Brussel, Belgium
Advanced mass transport models

VOGT, H. – Beuth University of Technology, Germany
The action of gas evolution at electrodes on mass transfer – an introduction

KELSALL, G. – Imperial College London, United Kingdom
Coalescence and role of charge in gas evolution

NIERHAUS, T. – Evonik Energy Services, Germany
Two-phase flow modeling in CFD

TOMASONI, F. – von Karman Institute for Fluid Dynamics, Belgium
Measuring bubble generation at electrodes with optical techniques

VAN PARYS, H.; MACIEL, P.; VAN DAMME, S. – Vrije Universiteit Brussel, Belgium
Effect of bubble formation on electrode processes, and simulation

SMETS, N. – Vrije Universiteit Brussel, Belgium
Role of heat transfer in electrochemical systems

AERTS, T.; DE GRAEVE, I.; TERRYN, H. – Vrije Universiteit Brussel, Belgium
Heat problems in anodizing processes

NELISSEN, G. – Elsyca, Belgium
Simulation of industrial electrochemical processes

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