Digital Simulation in Electrochemistry / Edition 3

Digital Simulation in Electrochemistry / Edition 3

by Dieter Britz
     
 

ISBN-10: 3642063071

ISBN-13: 9783642063077

Pub. Date: 12/01/2010

Publisher: Springer Berlin Heidelberg

The book shows how to numerically solve the parabolic partial differential equations (pdes) encountered in electroanalytical chemistry. It does this in a didactic manner, by first introducing the basic equations to be solved and some model systems as text cases, for which solutions exist. Then it treats basic numerical approximation for derivatives and techniques

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Overview

The book shows how to numerically solve the parabolic partial differential equations (pdes) encountered in electroanalytical chemistry. It does this in a didactic manner, by first introducing the basic equations to be solved and some model systems as text cases, for which solutions exist. Then it treats basic numerical approximation for derivatives and techniques for the numerical solution of ordinary differential equations, from which the more complicated methods for pdes can be derived. The major implicit methods are described in detail, and the handling of homogeneous chemical reactions, including coupled and nonlinear cases, is detailed. More advanced techniques are presented briefly, as well as some commercially available program packages.

This third edition, still the only text on the subject, is structured more didactically then the previous editions. It brings the coverage of electrochemical digital simulation up to date, including many new techniques developed since the early 1990s. A number of example procedures and programs are made available as supplementary material in the online version of this book.

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Product Details

ISBN-13:
9783642063077
Publisher:
Springer Berlin Heidelberg
Publication date:
12/01/2010
Series:
Lecture Notes in Physics Series, #666
Edition description:
Softcover reprint of hardcover 3rd ed. 2005
Pages:
338
Product dimensions:
6.10(w) x 9.25(h) x 0.03(d)

Table of Contents

Introduction. Basic Equations. Approximations to Derivatives. Ordinary Differential Equations. The Explicit Method. Boundary Conditions. Unequal Intervals. The Commonly Used Implicit Methods. Other Methods. Adsorption. Effects Due to Uncompensated Resistance and Capacitance. Two-Dimensional Systems. Convection. Performance. Programming. Simulation Packages. Some Mathematical Proofs. Useful Procedures. Example Programs.

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