Details
Modeling and Numerical Simulations I
Modern Aspects of Electrochemistry, Band 43
149,79 € |
|
Verlag: | Springer |
Format: | |
Veröffentl.: | 25.07.2010 |
ISBN/EAN: | 9780387495828 |
Sprache: | englisch |
Anzahl Seiten: | 540 |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
Mathematical Modeling in Electrochemistry.- High Precision Atomic Theory: Tests of Fundamental Understanding.- Modeling of Impedance of Porous Electrodes.- Multiscale Mass Transport in Porous Silicon Gas Sensors.- Electrochemical Materials for PEM Fuel Cells: Insights from Physical Theory and Simulation.- Modeling of Catalyst Structure Degradation in PEM Fuel Cells.- Modeling Water Management in Polymer-Electrolyte Fuel Cells.- Adaptive Characterization and Modeling of Electrochemical Energy Storage Devices for Hybrid Electric Vehicle Applications.
<P>MODERN ASPECTS OF ELECTROCHEMISTRY</P>
<P>No. 43</P>
<P></P>
<P>Edited by Mordechay Schlesinger</P>
<P>University of Windsor, Ontario, Canada</P>
<P></P>
<P>This volume contains eight chapters dealing with modeling and numeric simulations. Topics in Number 43 include:</P>
<UL>
<P>
<LI>mathematical modeling in electrochemistry using finite element and finite difference methods by Mordechay Schlesinger</LI>
<P></P>
<P>
<LI>modeling atomic systems of more than two bodies by G.W.F. Drake</LI>
<P></P>
<P>
<LI>modeling impedance of porous electrodes, in order to permit optimal utilization of the active electrode material by Andrzej Lasia</LI>
<P></P>
<P>
<LI>multi-scale mass transport in porous silicon gas by Peter A. Kottke, Andrei G. Fedorov and James L. Gole</LI>
<P></P>
<P>
<LI>physical theory, molecular simulation, and computational electrochemistry for PEM fuel cells, with emphasis on fundamental understanding, diagnostics, and design by Michael Eikerling and Kourosh Malek</LI>
<P></P>
<P>
<LI>modeling of catalyst structure degradation in PEM fuel cells by Jeremy P. Meyers</LI>
<P></P>
<P>
<LI>modeling water management in PEM fuel cells by Adam Z. Weber, Ryan Balliet, Haluna P. Gunterman and John Newman</LI>
<P></P>
<P>
<LI>modeling electrochemical storage devices for automotive applications by Mark W. Verbrugge</LI>
<P></P></UL>
<P>From reviews of previous volumes:</P>
<P></P>
<P>"This long-standing series continues its tradition of offering high quality reviews of established and emerging subject areas, together with the less common aspects of electrochemical science … Deserves a place in electrochemistry libraries and should prove useful to electrochemists and related workers."</P>
<UL>
<UL>
<P></P></UL></UL>
<P>-Chemistry and Industry</P>
<UL>
<UL>
<P></P></UL></UL>
<P></P>
<P>"Continues the valuable service that has been rendered by the Modern Aspects series."</P>
<P>- Journal of Electroanalytical Chemistry</P>
<P></P>
<P>"Will definitely be of much use toresearchers in the field of electrochemistry… The editors of this well-produced volume deserve all appreciation for maintaining the excellent standard of the series." </P>
<P>- Bulletin of Electrochemistry</P>
<P></P>
<P>"Extremely well-referenced and very readable … Maintains the overall high standards of the series." </P>
<P>- Journal of the American Chemical Society</P>
<P>No. 43</P>
<P></P>
<P>Edited by Mordechay Schlesinger</P>
<P>University of Windsor, Ontario, Canada</P>
<P></P>
<P>This volume contains eight chapters dealing with modeling and numeric simulations. Topics in Number 43 include:</P>
<UL>
<P>
<LI>mathematical modeling in electrochemistry using finite element and finite difference methods by Mordechay Schlesinger</LI>
<P></P>
<P>
<LI>modeling atomic systems of more than two bodies by G.W.F. Drake</LI>
<P></P>
<P>
<LI>modeling impedance of porous electrodes, in order to permit optimal utilization of the active electrode material by Andrzej Lasia</LI>
<P></P>
<P>
<LI>multi-scale mass transport in porous silicon gas by Peter A. Kottke, Andrei G. Fedorov and James L. Gole</LI>
<P></P>
<P>
<LI>physical theory, molecular simulation, and computational electrochemistry for PEM fuel cells, with emphasis on fundamental understanding, diagnostics, and design by Michael Eikerling and Kourosh Malek</LI>
<P></P>
<P>
<LI>modeling of catalyst structure degradation in PEM fuel cells by Jeremy P. Meyers</LI>
<P></P>
<P>
<LI>modeling water management in PEM fuel cells by Adam Z. Weber, Ryan Balliet, Haluna P. Gunterman and John Newman</LI>
<P></P>
<P>
<LI>modeling electrochemical storage devices for automotive applications by Mark W. Verbrugge</LI>
<P></P></UL>
<P>From reviews of previous volumes:</P>
<P></P>
<P>"This long-standing series continues its tradition of offering high quality reviews of established and emerging subject areas, together with the less common aspects of electrochemical science … Deserves a place in electrochemistry libraries and should prove useful to electrochemists and related workers."</P>
<UL>
<UL>
<P></P></UL></UL>
<P>-Chemistry and Industry</P>
<UL>
<UL>
<P></P></UL></UL>
<P></P>
<P>"Continues the valuable service that has been rendered by the Modern Aspects series."</P>
<P>- Journal of Electroanalytical Chemistry</P>
<P></P>
<P>"Will definitely be of much use toresearchers in the field of electrochemistry… The editors of this well-produced volume deserve all appreciation for maintaining the excellent standard of the series." </P>
<P>- Bulletin of Electrochemistry</P>
<P></P>
<P>"Extremely well-referenced and very readable … Maintains the overall high standards of the series." </P>
<P>- Journal of the American Chemical Society</P>
An introductory resource aimed at practitioners of electrochemistry research, technology and development mainly at the atomic, molecular or macromolecular levels Emphasis is placed at length scales in the 1-100 nm range