Non Equilibrium Thermodynamics For Engineering Applications
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Non-equilibrium Thermodynamics For Engineering Applications
This book presents the theory of non-equilibrium thermodynamics in a pedagogical and practical way that targets engineering applications. In it, tools to take advantage of the second as well as the first law of thermodynamics are provided.The book starts by explaining how the entropy production is the cornerstone of non-equilibrium thermodynamics — the basis to describe coupled transport phenomena, which are highly relevant for several renewable energy technologies. The book also uses entropy production as the foundation for a systematic methodology to analyze and improve energy efficiency, and shows how entropy production can be used to test the consistency of transport models. The link between transport theory and energy efficiency is also shown, and the relationship to exergy analysis is demonstrated. The theory is applied using examples from practical cases like evaporation, heat exchange, reactor optimization, distillation and more.Non-Equilibrium Thermodynamics for Engineering Applications may be used as a textbook for undergraduate and graduate university curricula containing thermodynamics or energy conversion issues at large, chemical and mechanical engineering, applied chemistry and applied physics.
Non-Equilibrium Thermodynamics with Application to Solids
This book puts emphasis on developing the basic ideas behind the different approaches to non-equilibrium thermodynamics and on applying them to solids. After a survey about different approaches an introduction to their common fundamentals is given in the first part. In the second part the mechanical behavior of special materials such as viscoelasticity, viscoplasticity, viscoelastoplasticity, and thermoplasticity are discussed. The third part is devoted to extended thermodynamics. The basic ideas, phenomenological as well as microscopical, are reviewed and applied to thermo- and viscoelastic materials. Electromagnetic solids showing dielectric relaxation, such as ceramics, showing electromagneto-mechanical hysteresis and superconductivity are treated in the fourth part. In the last part stability with regard to constitutive equations is investigated. Especially stability of quasi-static processes and of elastic-plastic systems are discussed.
Nonequilibrium Thermodynamics
This fully updated and revised fifth edition of Nonequilibrium Thermodynamics: Transport and Rate Processes in Physical, Chemical, and Biological Systems emphasizes the unifying role of thermodynamics and their use in transport processes and chemical reactions in physical, chemical, and biological systems. This reorganized new edition provides thermodynamical approaches for foundational understanding of natural phenomena with multiscale chemical, physical, and biological systems, consisting of interactive processes leading to self-organized dissipative structures, fluctuations, and instabilities. This edition also emphasizes thermodynamic approaches, tools, and techniques, including energy analysis, process intensification, and artificial intelligence, for undertaking sustainable engineering.This book will be an excellent resource for graduate students and researchers in the fields of engineering, chemistry, physics, energy, biotechnology, and biology, as well as those whose work involves understanding the evolution of nonequilibrium systems, information theory, stochastic processes, and sustainable engineering. This may also be useful to professionals working in irreversibility, dissipative structures, process exergy analysis and thermoeconomics, digitalization in manufacturing, and data processing. - Highlights the fundamentals of equilibrium thermodynamics and phase equilibria - Expands the theory of nonequilibrium thermodynamics and its use in coupled reactions and transport processes in various time and space scales of physical, chemical, and biological systems - Discusses self-organized dissipative structures, quantum thermodynamics, information theory, and stochastic approaches in thermodynamic analysis, including fluctuation theories and molecular motors - Includes new content on sustainable engineering with thermodynamics tools and techniques, including energy analysis, process intensification, and artificial intelligencePresents many fully solved examples and numerous practice problemsOffers instructor resources containing a solution manual that can be obtained from the authors