Entropy and Entropy Generation

Fundamentals and Applications

  • J. S. Shiner

Part of the Understanding Chemical Reactivity book series (UCRE, volume 18)

Table of contents

  1. Front Matter
    Pages i-xiv
  2. M. Kaufmann, W. Muschik, D. Schirrmeister
    Pages 1-9
  3. K. Rateitschak, J. Freund, W. Ebeling
    Pages 11-26
  4. G. Lebon, D. Jou, J. Casas-Váquez
    Pages 37-54
  5. L. C. Woods
    Pages 75-99
  6. W. Muschik, H. Ehrentraut, C. Papenfuß, S. Blenk
    Pages 101-109
  7. G. H. A. Cole
    Pages 129-137
  8. J. S. Shiner, Stanislaw Sieniutycz
    Pages 139-158
  9. G. H. A. Cole
    Pages 159-173
  10. P. T. Landsberg, A. De Vos, P. Baruch, J. E. Parrott
    Pages 175-195
  11. S. Kjelstrup Ratkje, B. Hafskjold
    Pages 197-219
  12. J. S. Shiner, S. Fassari, Stanislaw Sieniutycz
    Pages 221-239
  13. Back Matter
    Pages 241-247

About this book


Entropy and entropy generation play essential roles in our understanding of many diverse phenomena ranging from cosmology to biology. Their importance is manifest in areas of immediate practical interest such as the provision of global energy as well as in others of a more fundamental flavour such as the source of order and complexity in nature. They also form the basis of most modern formulations of both equilibrium and nonequilibrium thermodynamics. Today much progress is being made in our understanding of entropy and entropy generation in both fundamental aspects and application to concrete problems. The purpose of this volume is to present some of these recent and important results in a manner that not only appeals to the entropy specialist but also makes them accessible to the nonspecialist looking for an overview of the field.
This book contains fourteen contributions by leading scientists in their fields. The content covers such topics as quantum thermodynamics, nonlinear processes, gravitational and irreversible thermodynamics, the thermodynamics of Taylor dispersion, higher order transport, the mesoscopic theory of liquid crystals, simulated annealing, information and biological aspects, global energy, photovoltaics, heat and mass transport and nonlinear electrochemical systems.
Audience: This work will be of value to physicists, chemists, biologists and engineers interested in the theory and applications of entropy and its generation.


energy entropy photovoltaics thermodynamics

Editors and affiliations

  • J. S. Shiner
    • 1
  1. 1.Physiological InstituteUniversity of BernBernSwitzerland

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