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OverviewGibbs' Entropic Paradox and Problems of Separation Processes reviews the so-called Gibb’s Paradox observed during the mixing of two systems. During the last 150 years, many physicists and specialists in thermodynamics, statistical and quantum mechanics been engaged in the solution of the Gibbs paradox. Many books and journal articles have written on this topic, but a widely accepted answer is still lacking. In this book, the author reviews and analyzes all this data. Based on findings, the book formulates a different approach to this paradox and substantiates it on the basis of physical and statistical principles. The book clearly shows that entropy consists of two parts, static and dynamic. Up to now, entropy has been connected only with the process dynamics. However, the Gibbs paradox is caused by the change in the static component of entropy. Finally, the book includes examples of separation processes and how to optimize them in various fields, including biology, cosmology, crystallography and the social sciences. Full Product DetailsAuthor: Eugene Barsky (Department of Industrial Engineering, Azrieli College of Engineering, Jerusalem, Israel)Publisher: Elsevier Science & Technology Imprint: Elsevier Science Ltd Weight: 0.440kg ISBN: 9780444639196ISBN 10: 0444639195 Pages: 202 Publication Date: 24 March 2017 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of Contents1. Peculiarities of Thermodynamic Regularities Formation 2. Brief Review of Thermodynamic Regularities 3. The Gibbs Paradox and Attempts of Its Solution 4. Solution of the Gibbs Paradox and Related Problems 5. Available Quality Criteria for Separation Processes 6. Generalized Optimization Criterion for Separation Processes 7. Multistage Separation Mechanism 8. Practical Application of the Obtained Results 9. Analysis of the Obtained Results and Summing-upReviewsAuthor InformationThe author, Dr. Eugene Barsky, has been engaged in this subject for 18 years, since 1993. His M.Sc. thesis completed in 1998 was devoted to the development of models of cascade separation of solid materials in flows. His PhD thesis completed in 2001 was devoted to the development of entropy criterion of separation processes optimization. Among dozens of criteria applied, the entropy criterion has proved to be the most unbiased one. Since that time, the author has been developing these topics in depth. He created a number of industrial cascade apparatuses for powders separation and dust collection, wrote about 20 articles, published two books, participated in many scientific congresses and conferences. The material accumulated during 6 recent years is presented in the proposed book. Tab Content 6Author Website:Countries AvailableAll regions |