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Author: Jean Thoma Publisher: Springer Science & Business Media ISBN: 3540328513 Category : Technology & Engineering Languages : en Pages : 141
Book Description
Students, academics and researchers will find this book an invaluable contribution to the understanding of thermodynamics. In this new treatment of the subject, the authors focus on the principles of thermodynamic variables and the practical simulation of thermodynamic systems, and endeavor to show how simple thermodynamics really is. It offers a unique view of modern complex systems engineering and its ramifications.
Author: Jean Thoma Publisher: Springer Science & Business Media ISBN: 3540328513 Category : Technology & Engineering Languages : en Pages : 141
Book Description
Students, academics and researchers will find this book an invaluable contribution to the understanding of thermodynamics. In this new treatment of the subject, the authors focus on the principles of thermodynamic variables and the practical simulation of thermodynamic systems, and endeavor to show how simple thermodynamics really is. It offers a unique view of modern complex systems engineering and its ramifications.
Author: Keenan Murphy Publisher: Clanrye International ISBN: 9781647266790 Category : Science Languages : en Pages : 0
Book Description
Thermodynamics is a branch of physics that deals with matter and conversion of energy. Engineering thermodynamics is a subject of mechanical engineering that involves applying the principles of thermodynamics to engineering design of processes, devices, and systems, which involve effective utilization of energy and matter. Conversion between heat and work is fundamental in engineering thermodynamics. Entropy refers to a measurable physical characteristic and a scientific concept that is connected to a state of uncertainty, unpredictability or disorder. It is utilized in a variety of fields, including the principles of information theory, classical thermodynamics, and the microscopic description of nature in statistical physics. Entropy is central to the second law of thermodynamics, which asserts that the entropy of isolated systems left to unstructured expansion cannot decrease over time. This is due to the isolated systems always reaching thermodynamic equilibrium with the highest entropy. Different scenarios involving entropy production such as optimizing power and waste heat reduction can be studied by taking the help of simulation tools. This book aims to shed light on some of the unexplored aspects of engineering thermodynamics and the latest researches on simulation with entropy. It will serve as a valuable source of reference for graduate and postgraduate students.
Author: Christophe Goupil Publisher: MDPI ISBN: 3036501142 Category : Science Languages : en Pages : 222
Book Description
Beyond its identification with the second law of thermodynamics, entropy is a formidable tool for describing systems in their relationship with their environment. This book proposes to go through some of these situations where the formulation of entropy, and more precisely, the production of entropy in out-of-equilibrium processes, makes it possible to forge an approach to the behavior of very different systems. Whether for dimensioning structures; influencing parameter variability; or optimizing power, efficiency, or waste heat reduction, simulations based on entropy production offer a tool that is both compact and reliable. In the case of systems marked by complexity, it appears to be the only way. In that sense, realistic optimization can be carried out, integrating within the same framework both the system and all the constraints and boundary conditions that define it. Simulations based on entropy give the researcher a powerful analytical framework that crosses the disciplines of physics and links them together.
Author: Renaud Gicquel Publisher: CRC Press ISBN: 1000402169 Category : Science Languages : en Pages : 564
Book Description
Considered as particularly difficult by generations of students and engineers, thermodynamics applied to energy systems can now be taught with an original instruction method. Energy Systems applies a completely different approach to the calculation, application and theory of multiple energy conversion technologies. It aims to create the reader’s foundation for understanding and applying the design principles to all kinds of energy cycles, including renewable energy. Proven to be simpler and more reflective than existing methods, it deals with energy system modeling, instead of the thermodynamic foundations, as the primary objective. Although its style is drastically different from other textbooks, no concession is made to coverage: with encouraging pace, the complete range from basic thermodynamics to the most advanced energy systems is addressed. The accompanying ThermoptimTM portal (http://thermoptim.org) presents the software and manuals (in English and French) to solve over 200 examples, and programming and design tools for exercises of all levels of complexity. The portal explains to the user how to build appropriate models to bridge the technological reality with the theoretical basis of energy engineering. Offering quick overviews through e-learning modules moreover, the portal is user-friendly and enables users to quickly improve their proficiency. Students can freely download the Thermoptim modeling software demo version (available in seven languages), and extended options are available to lecturers. A professional edition is also available and has been adopted by many companies and research institutes worldwide (www.s4e2.com). This volume is intended as a textbook for courses in applied thermodynamics, energy systems, energy conversion and thermal engineering taken by senior undergraduate and graduate-level students in mechanical, energy, chemical and petroleum engineering. Students should already have taken a first-year course in thermodynamics. The refreshing approach and exceptionally rich coverage make it a great reference tool for researchers and professionals as well.
Author: D. Winterbone Publisher: Butterworth-Heinemann ISBN: 0080999832 Category : Technology & Engineering Languages : en Pages : 579
Book Description
Advanced Thermodynamics for Engineers, Second Edition introduces the basic concepts of thermodynamics and applies them to a wide range of technologies. Authors Desmond Winterbone and Ali Turan also include a detailed study of combustion to show how the chemical energy in a fuel is converted into thermal energy and emissions; analyze fuel cells to give an understanding of the direct conversion of chemical energy to electrical power; and provide a study of property relationships to enable more sophisticated analyses to be made of irreversible thermodynamics, allowing for new ways of efficiently covering energy to power (e.g. solar energy, fuel cells). Worked examples are included in most of the chapters, followed by exercises with solutions. By developing thermodynamics from an explicitly equilibrium perspective and showing how all systems attempt to reach equilibrium (and the effects of these systems when they cannot), Advanced Thermodynamics for Engineers, Second Edition provides unparalleled insight into converting any form of energy into power. The theories and applications of this text are invaluable to students and professional engineers of all disciplines. Includes new chapter that introduces basic terms and concepts for a firm foundation of study Features clear explanations of complex topics and avoids complicated mathematical analysis Updated chapters with recent advances in combustion, fuel cells, and more Solutions manual will be provided for end-of-chapter problems
Author: J. Richard Elliott Publisher: Prentice Hall ISBN: 0132901099 Category : Science Languages : en Pages : 912
Book Description
A Practical, Up-to-Date Introduction to Applied Thermodynamics, Including Coverage of Process Simulation Models and an Introduction to Biological Systems Introductory Chemical Engineering Thermodynamics, Second Edition, helps readers master the fundamentals of applied thermodynamics as practiced today: with extensive development of molecular perspectives that enables adaptation to fields including biological systems, environmental applications, and nanotechnology. This text is distinctive in making molecular perspectives accessible at the introductory level and connecting properties with practical implications. Features of the second edition include Hierarchical instruction with increasing levels of detail: Content requiring deeper levels of theory is clearly delineated in separate sections and chapters Early introduction to the overall perspective of composite systems like distillation columns, reactive processes, and biological systems Learning objectives, problem-solving strategies for energy balances and phase equilibria, chapter summaries, and “important equations” for every chapter Extensive practical examples, especially coverage of non-ideal mixtures, which include water contamination via hydrocarbons, polymer blending/recycling, oxygenated fuels, hydrogen bonding, osmotic pressure, electrolyte solutions, zwitterions and biological molecules, and other contemporary issues Supporting software in formats for both MATLAB® and spreadsheets Online supplemental sections and resources including instructor slides, ConcepTests, coursecast videos, and other useful resources
Author: Hagai Meirovitch Publisher: CRC Press ISBN: 1000072304 Category : Computers Languages : en Pages : 374
Book Description
Computer simulation has become the main engine of development in statistical mechanics. In structural biology, computer simulation constitutes the main theoretical tool for structure determination of proteins and for calculation of the free energy of binding, which are important in drug design. Entropy and Free Energy in Structural Biology leads the reader to the simulation technology in a systematic way. The book, which is structured as a course, consists of four parts: Part I is a short course on probability theory emphasizing (1) the distinction between the notions of experimental probability, probability space, and the experimental probability on a computer, and (2) elaborating on the mathematical structure of product spaces. These concepts are essential for solving probability problems and devising simulation methods, in particular for calculating the entropy. Part II starts with a short review of classical thermodynamics from which a non-traditional derivation of statistical mechanics is devised. Theoretical aspects of statistical mechanics are reviewed extensively. Part III covers several topics in non-equilibrium thermodynamics and statistical mechanics close to equilibrium, such as Onsager relations, the two Fick's laws, and the Langevin and master equations. The Monte Carlo and molecular dynamics procedures are discussed as well. Part IV presents advanced simulation methods for polymers and protein systems, including techniques for conformational search and for calculating the potential of mean force and the chemical potential. Thermodynamic integration, methods for calculating the absolute entropy, and methodologies for calculating the absolute free energy of binding are evaluated. Enhanced by a number of solved problems and examples, this volume will be a valuable resource to advanced undergraduate and graduate students in chemistry, chemical engineering, biochemistry biophysics, pharmacology, and computational biology.
Author: Yousef Haseli Publisher: Academic Press ISBN: 0128191694 Category : Science Languages : en Pages : 214
Book Description
Entropy Analysis in Thermal Engineering Systems is a thorough reference on the latest formulation and limitations of traditional entropy analysis. Yousef Haseli draws on his own experience in thermal engineering as well as the knowledge of other global experts to explain the definitions and concepts of entropy and the significance of the second law of thermodynamics. The design and operation of systems is also described, as well as an analysis of the relationship between entropy change and exergy destruction in heat conversion and transfer. The book investigates the performance of thermal systems and the applications of the entropy analysis in thermal engineering systems to allow the reader to make clearer design decisions to maximize the energy potential of a thermal system. Includes applications of entropy analysis methods in thermal power generation systems Explains the relationship between entropy change and exergy destruction in an energy conversion/transfer process Guides the reader to accurately utilize entropy methods for the analysis of system performance to improve efficiency
Author: Petrică Vizureanu Publisher: BoD – Books on Demand ISBN: 1838805680 Category : Technology & Engineering Languages : en Pages : 274
Book Description
This book is a primary survey of basic thermodynamic concepts that will allow one to predict states of a fuel cell system, including potential, temperature, pressure, volume and moles. The specific topics explored include enthalpy, entropy, specific heat, Gibbs free energy, net output voltage irreversible losses in fuel cells and fuel cell efficiency. It contains twelve chapters organized into two sections on “Theoretical Models” and “Applications.” The specific topics explored include enthalpy, entropy, specific heat, Gibbs free energy, net output voltage irreversible losses in fuel cells and fuel cell efficiency.
Author: Christophe Goupil Publisher: ISBN: 9783036501154 Category : Languages : en Pages : 222
Book Description
Beyond its identification with the second law of thermodynamics, entropy is a formidable tool for describing systems in their relationship with their environment. This book proposes to go through some of these situations where the formulation of entropy, and more precisely, the production of entropy in out-of-equilibrium processes, makes it possible to forge an approach to the behavior of very different systems. Whether for dimensioning structures; influencing parameter variability; or optimizing power, efficiency, or waste heat reduction, simulations based on entropy production offer a tool that is both compact and reliable. In the case of systems marked by complexity, it appears to be the only way. In that sense, realistic optimization can be carried out, integrating within the same framework both the system and all the constraints and boundary conditions that define it. Simulations based on entropy give the researcher a powerful analytical framework that crosses the disciplines of physics and links them together.
Author: Jean Thoma
Author: Jean Thoma
Author: Keenan Murphy
Author: Christophe Goupil
Author: Renaud Gicquel
Author: D. Winterbone
Author: J. Richard Elliott
Author: Hagai Meirovitch
Author: Yousef Haseli
Author: Petrică Vizureanu
Author: Christophe Goupil