Non-equilibrium Thermodynamics of Heterogeneous Systems. Signe KjelstrupЧитать онлайн книгу.
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Vol. 20:Non-equilibrium Thermodynamics of Heterogeneous Systems Second Edition by S. Kjelstrup & D. Bedeaux
Vol. 19:An Introduction to Stochastic Processes and Nonequilibrium Statistical Physics by H. S. Wio, R. R. Deza & J. M. López
Vol. 18:Statistical Mechanics of Magnetic Excitations: From Spin Waves to Stripes and Checkerboards by E. Rastelli
Vol. 17:Chaos: From Simple Models to Complex Systems by M. Cencini, F. Cecconi & A. Vulpiani
Vol. 16:Non-Equilibrium Thermodynamics of Heterogeneous Systems by S. Kjelstrup & D. Bedeaux
Vol. 15:Lattice Statistics and Mathematical Physics: Festschrift Dedicated to Professor Fa-Yueh Wu on the Occasion of his 70th Birthday edited by J. H. H. Perk & M.-L. Ge
Vol. 14:Statistical Physics on the Eve of the 21st Century: In Honour of J. B. McGuire on the Occasion of his 65th Birthday edited by M. T. Batchelor & L. T. Wille
Vol. 13:Exactly Soluble Models in Statistical Mechanics: Historical Perspectives and Current Status edited by C. King & F. Y. Wu
Vol. 12:Quantum Many-Body Systems in One Dimension by Zachary N. C. Ha
Vol. 10:An Introduction to Stochastic Processes and Nonequilibrium Statistical Physics by H. S. Wio
Vol. 9:Disorder and Competition in Soluble Lattice Models by W. F. Wreszinski & S. R. A. Salinas
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Series on Advances in Statistical Mechanics — Vol. 20
NON-EQUILIBRIUM THERMODYNAMICS OF HETEROGENEOUS SYSTEMS
Second Edition
Copyright © 2020 by World Scientific Publishing Co. Pte. Ltd.
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We dedicate this book to our teacher and friend Peter Mazur
Preface of the second edition
Aim of the book
The aim of our book is to prescribe how consistent thermodynamic models can be achieved for heterogeneous systems. Such models are, for instance, in demand in electrochemical research. The first edition presented and discussed several examples, among them evaporation and condensation, fuel cells, thermoelectricity, and thermal osmosis. This edition adds two new chapters. Since the publication of the first edition, the analysis of a dynamic phase transition has been brought to the next stage [1]. It is therefore natural in this second edition to add a chapter on the effect of curvature on interface transfer coefficients. The new chapter (Chapter 24) deals with this.
An hitherto unexplored feature, that follows from the entropy production in heterogeneous systems, is its prediction for reaction kinetics. Chemical reaction kinetics is a well-established field, and the law of mass action is well understood, also from a thermodynamic point of view [2]. Chapter 25 describes how the rate law can be affected in heterogeneous catalysis, by coupling to other driving forces, leading to new explanations of Arrhenius plots.
In the first 23 chapters, we have corrected misprints. New references have been introduced in the context of the new chapters.
Teaching non-equilibrium thermodynamics
Since the first edition was published about 10 years ago, there has been an increased interest in the use non-equilibrium thermodynamics. The current focus on energy efficiency as an important design parameter in engineering is creating a demand for better teaching of thermodynamics. The theory of non-equilibrium thermodynamics offers a precise determination of the entropy production. We co-authored a textbook, Non-equilibrium Thermodynamics for Engineers [3], which was revised in 2017 [2], useful for such a purpose.
Acknowledgments for the second edition
We appreciate discussions and collaborations with colleagues (in alphabetical order) Daniel Barragan, Carolina Cruz, Anders Lervik, Elisa Magnanelli, and Øivind Wilhelmsen.
The authors are especially grateful to the Research Council of Norway, through its Centers of Excellence funding scheme, project number 262644, PoreLab.
Facultad de Ciencias of Universidad Nacional de Colombia Sede Medellin partially supported the work in Chapter 25 with the grant QUIPU 201010021328.
| January 2020 | Signe Kjelstrup and Dick Bedeaux |
Preface of the first edition
About the book
This book describes transport through complex, heterogeneous media. There are large coupling effects between transports of heat, mass, charge and chemical reactions in such media, and it