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Energy Storage

Autor Robert Huggins
en Limba Engleză Paperback – 11 sep 2014
Introduction Energy is necessary for a number of reasons, the most basic and obvious involve the preparation of food and the provision of heat to make life comfortable, or at least, bearable. Subsequently, a wide range of technological uses of energy have emerged and been developed, so that the availability of energy has become a central issue in society. The easiest way to acquire useful energy is to simply ?nd it as wood or a hydrocarbon fossil fuel in nature. But it has often been found to be advantageous to convert what is simply available in nature into more useful forms, and the processing and conversion of raw materials, especially petrochemicals have become a very large industry. Wood Wood has been used to provide heat for a great many years. In some cases, it can be acquired as needed by foraging, or cutting, followed by simple collection. When it is abundant there is relatively little need for it to be stored. However, many societies have found it desirable to collect more wood than is immediately needed during warm periods during the year, and to store it up for use in the winter, when the needs are greater, or its collection is not so convenient. One can still see this in some locations, such as the more remote communities in the Alps, for example. One might think of this as the oldest and simplest example of energy storage.
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Specificații

ISBN-13: 9781489990310
ISBN-10: 1489990313
Pagini: 436
Ilustrații: XXVIII, 406 p.
Dimensiuni: 155 x 235 x 23 mm
Greutate: 0.61 kg
Ediția:2010
Editura: Springer Us
Colecția Springer
Locul publicării:New York, NY, United States

Public țintă

Research

Descriere

Introduction Energy is necessary for a number of reasons, the most basic and obvious involve the preparation of food and the provision of heat to make life comfortable, or at least, bearable. Subsequently, a wide range of technological uses of energy have emerged and been developed, so that the availability of energy has become a central issue in society. The easiest way to acquire useful energy is to simply ?nd it as wood or a hydrocarbon fossil fuel in nature. But it has often been found to be advantageous to convert what is simply available in nature into more useful forms, and the processing and conversion of raw materials, especially petrochemicals have become a very large industry. Wood Wood has been used to provide heat for a great many years. In some cases, it can be acquired as needed by foraging, or cutting, followed by simple collection. When it is abundant there is relatively little need for it to be stored. However, many societies have found it desirable to collect more wood than is immediately needed during warm periods during the year, and to store it up for use in the winter, when the needs are greater, or its collection is not so convenient. One can still see this in some locations, such as the more remote communities in the Alps, for example. One might think of this as the oldest and simplest example of energy storage.

Cuprins

General Concepts.- Thermal Energy Storage.- Reversible Chemical Reactions.- Energy Storage in Organic Fuels.- Mechanical Energy Storage.- Electromagnetic Energy Storage.- Hydrogen Storage.- to Electrochemical Energy Storage.- Principles Determining the Voltages and Capacities of Electrochemical Cells.- Binary Electrodes Under Equilibrium or Near-Equilibrium Conditions.- Ternary Electrodes Under Equilibrium or Near-Equilibrium Conditions.- Insertion Reaction Electrodes.- Electrode Reactions that Deviate from Complete Equilibrium.- Lead-Acid Batteries.- Negative Electrodes in Other Rechargeable Aqueous Systems.- Positive Electrodes in Other Aqueous Systems.- Negative Electrodes in Lithium Systems.- Positive Electrodes in Lithium Systems.- Primary, Nonrechargeable Batteries.- Energy Storage for Medium-to-Large Scale Applications.- A Look to the Future.

Recenzii

Aus den Rezensionen:
 “... Es schließen sich 22 Kapitel mit theoretischen Grundlagen und verschiedenen Energiespeichermöglichkeiten an. ... das Buch sehr schon die reversible Interkalation … hilft dem Leser dabei, die verschiedenen Konzepte ... zu verstehen. ... Das lehrreiche und didaktisch gut gemachte Buch bietet einen umfassenden Überblick über die physikalischen, elektrochemischen und strukturellen Prinzipien ... wendet sich gleichermaßen an Studenten Doktoranden wie an Hochschul und Industriewissenschaftler. ... Zielt auf Grundlagenverständnis und eignet sich zum Selbststudium oder auch als Nachschlagewerk …“ (Thomas Wohrle, in: Nachrichten aus der Chemie, April/2011, Vol. 59, Issue 04, S. 469)

Textul de pe ultima copertă

Energy Storage discusses the underlying fundamentals of all the major energy storage methods.These include the storage of energy as heat, in phase transitions and reversible chemical reactions, and in organic fuels and hydrogen, an important energy carrier. The principles involved in the storage of energy in mechanical, electrostatic and magnetic systems are also treated in some detail.Major attention is given to an up-to-date discussion of electrochemical storage systems in a way that does not require prior understanding of electrochemistry. This includes both traditional battery systems and recent developments, with special attention given to the very important, and rapidly evolving, lithium batteries.Energy Storage provides a comprehensive overview of the concepts, principles and practice of energy storage that will be useful to both students and researchers.

Caracteristici

Covers the fundamentals of energy storage
Describes various forms of energy including hydrogen storage, thermal energy and batteries
Provides comprehensive coverage on current applications
Includes supplementary material: sn.pub/extras

Notă biografică

Professor Huggins obtained his B.A. in Physics from Amherst College and his M.S. and Sc.D. in Metallurgy from the Massachusetts Institute of Technology.   After serving as an Instructor at MIT, he joined the Stanford faculty, where he initiated the Department of Materials Science and founded Stanford's Center for Materials Research. His career has included a National Science Foundation Fellowship and guest lectureship at the Max-Planck-Institute, as well as terms as Director of Materials Sciences at ARPA, Chief Scientist of the Center for Solar Energy and Hydrogen Research in Ulm, Germany, and Chairman of the Solid State Sciences Committee. He was a member of the Committees on Advanced Energy Storage Systems and Battery Materials Technology of the US National Academy of Sciences and the first President of the International Society for Solid State Ionics. He was also one of the Founders, and later twice a Counselor, of the Materials Research Society. He is Honorary Professor at the University of Ulm and the University of Kiel.

Dr. Huggins is recipient of many awards including the American Society for Engineering Education’s Vincent Bendix Award, the Research Award of the Electrochemical Society's Battery Division, and the Research Award of the International Battery Association.

His research activities have included studies of imperfections in crystals, solid-state reaction kinetics, ferromagnetism, mechanical behavior of solids, crystal growth, and a wide variety of topics in physical metallurgy, ceramics, solid state chemistry and electrochemistry. Topics of particular recent interest have been hydrogen transport and hydride formation in metals, alloys and intermetallic compounds, and especially, various aspects of materials and phenomena related to advanced batteries.
He is author or co-author of over 400 publications, including 150 articles or chapters in books and conference proceedings, as well as 13 patents.  He is Editor of several books, including of the 23-volume book series Annual Review of Materials Science. He has also been an Editor of Solid State Ionics journal, Associate Editor of the Materials Research Bulletin, on the Advisory Review Board of the Journal of Materials Research, and on the Editorial Boards of Progress in Solid State Chemistry, the Journal of Power Sources, and Ionics, as well as the European Journal of Solid State and Inorganic Chemistry. In addition to his many research publications, he is the author of two recent books published by Springer, Advanced Batteries: Materials Science Aspects and Energy Storage.