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|a 1460291181
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|z 9780443267376
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|q (electronic bk.)
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|q (electronic bk.)
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|z (OCoLC)1460291181
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|a TJ165
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|a 621.3126
|2 23/eng/20241202
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|a TXAM
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|a Burheim, Odne Stokke,
|e author.
|1 https://id.oclc.org/worldcat/entity/E39PCjHXpQMMBq66qFV8dgjbq3
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| 245 |
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|a Engineering energy storage /
|c Odne Stokke Burheim, Jacob Joseph Lamb.
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| 250 |
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|a Second edition.
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| 264 |
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|a London :
|b Academic Press,
|c [2025]
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| 300 |
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|a 1 online resource.
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| 336 |
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|a text
|b txt
|2 rdacontent
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|a computer
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|a online resource
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|a Engineering Energy Storage, Second Edition, explains the engineering concepts of different energy technologies in a coherent manner, assessing underlying numerical material to evaluate energy, power, volume, weight, and cost of new and existing energy storage systems. Offering numerical examples and problems with solutions, this fundamental reference on engineering principles gives guidance on energy storage devices, setting up energy system plans for smart grids, engineering single technologies and comparing them, understanding the reasoning for losses in efficiency, and much more. This new edition advances the description of energy revolutions, with the premise that we are now in the most invasive and comprehensive energy revolution since the first industrial revolution. There is increased focus on the specifics of energy and power, as well as charging times for energy storage solutions compared to traditional means. The chapter on batteries is extensively expanded and now considers the carbon footprint of battery production and battery production processes. All technology costs are updated, and mineral limitations for the technologies are also discussed. More information regarding use scenarios for different energy storage solutions is included, and the exercises and worked problems are renewed and augmented, giving the reader a deeper understanding of the engineering aspects of energy storage. Designed for those in traditional fields of science as well as professional engineers in applied industries, this book is an ideal resource for undergraduate and postgraduate students, engineers, R&D, and industrial personnel working with energy storage systems or looking to extend their competencies into new areas.
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|a Online resource; title from PDF title page (ScienceDirect, viewed December 2, 2024).
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|a Front Cover -- Engineering Energy Storage -- Copyright -- Contents -- Biography -- Dr. Odne Burheim (1981-) -- Dr. J. Lamb (1987-) -- Preface -- Acknowledgment -- 1 Energy storage -- 1.1 A brief history of energy -- 1.2 Renewable energy and energy storage -- 1.3 Energy, power and other aspects -- 1.3.1 Energy storage systems -- 1.3.1.1 Mechanical energy storage -- 1.3.1.2 Electrochemical storage -- 1.3.1.3 Chemical storage -- 1.3.1.4 Energy storage media -- 1.3.2 Energy and power for transportation -- 1.3.3 Volume and mass -- 1.3.4 Technology performance -- 1.3.5 Fueling rate -- 1.3.6 Efficiency and propagation of efficiency losses -- Problems -- Solutions -- 2 Thermodynamics of systems and components -- 2.1 The first law and internal energy, U -- 2.2 Second law and entropy -- 2.2.1 Reversible adiabatic must be isentropic -- 2.2.2 The Carnot efficiency limitation -- 2.3 Pressure and volume -- 2.4 Enthalpy and control volumes -- 2.5 Gibbs free energy and chemical potential -- Problems -- Solutions -- 3 Mechanical energy storage -- 3.1 Mechanical energy storage -- 3.1.1 Flywheels -- 3.1.1.1 The energy -- 3.1.1.2 Other aspects -- 3.1.2 Hydroelectric energy storage -- Problems -- Solutions -- 4 Thermal energy storage -- 4.1 Heat vs. thermal energy -- 4.2 Single phase energy storage -- sensible heat -- 4.3 Two phase thermal energy storage -- latent heat -- 4.3.1 Single component systems -- 4.3.2 Two component systems -- eutectic and non-eutectic heat -- 4.3.3 Reaction heat -- 4.4 Cooling and energy storage -- 4.4.1 Vapor-liquid phase diagrams -- 4.4.2 Heat pumps and refrigeration systems -- 4.4.3 From two-phase to three-phase energy storage systems -- Problems -- Solutions -- Liquid-vapor data of propane -- 5 Thermomechanical energy storage -- 5.1 Thermodynamics -- heat, work and states -- 5.2 Compressed air energy storage -- 5.2.1 Phase change materials.
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8 |
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|a 5.2.2 Cryogenic energy storage -- 5.2.3 Other compressed gases -- 5.3 Solar power towers -- Problems -- Solutions -- 6 Electrochemical energy storage -- 6.1 Introduction -- 6.2 Nernst equation and electromotoric force (EMF) -- 6.2.1 The free energy of a reaction -- 6.2.2 The electrochemical free energy -- 6.2.3 Half cell reactions -- 6.2.4 Ohm's law -- power and potential -- 6.3 Concentration and Nernst equation -- 6.3.1 Activity of components and species -- 6.3.2 EMF and concentration -- 6.3.3 Concentration polarization overpotentials -- 6.3.4 Liquid junction potential -- 6.3.4.1 Multiple liquid junctions and the repeating cell unit -- 6.4 Electrode reaction kinetics -- 6.4.1 The equilibrium reaction rate and constant -- 6.4.2 Butler-Volmer overpotentials -- 6.4.3 The Tafel overpotential -- an approximation -- 6.4.4 Charge transfer resistance overpotentials, RCT -- yet an approximation -- 6.4.5 Overpotentials for competing electrode reactions -- 6.5 Reference electrodes measurements -- Problems -- Solutions -- 7 Secondary batteries -- 7.1 Battery terminology -- 7.2 Red-ox cells and oxidation number -- 7.3 Charging and discharge power and efficiency -- 7.4 Battery capacity -- 7.5 Battery footprint -- 7.5.1 Accumulated weight -- 7.5.2 Environmental footprint -- 7.5.3 Mineral requirements -- 7.6 Battery chemistry -- 7.6.1 Lead acid battery -- 7.6.2 NiCd batteries -- 7.6.3 NiMeH batteries -- 7.6.4 ZEBRA batteries -- 7.7 Li-ion batteries -- 7.7.1 Manufacturing of li-ion batteries -- 7.8 Emerging batteries -- 7.8.1 Sodium ion batteries -- 7.8.2 Lithium sulphur batteries -- 7.8.3 Solid state LIB -- 7.8.4 Flow cell batteries -- 7.8.4.1 RedOx flow batteries -- 7.8.4.2 Concentration flow batteries -- Problems -- Solutions -- 8 Hydrogen for energy storage -- 8.1 Introduction -- 8.2 Hydrogen production -- water electrolysis.
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| 505 |
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|a 8.2.1 Water electrolysis thermodynamics -- 8.2.1.1 The energies -- 8.2.1.2 Half cell potentials and pH -- 8.2.2 Electrolysis technologies -- 8.2.2.1 Alkaline water electrolysis -- 8.2.2.2 PEM water electrolysis -- 8.2.2.3 Solid oxide electrolysis cells -- 8.2.3 Other types of electrolysis -- 8.2.4 Hydrogen from coal and natural gas -- 8.3 Hydrogen storage and distribution -- 8.3.1 Thermodynamic properties of hydrogen -- 8.3.1.1 Compressibility -- 8.3.1.2 Phase properties -- 8.3.1.3 Para and ortho hydrogen -- 8.3.2 Hydrogen storage technologies -- 8.3.2.1 Power to gas -- 8.3.2.2 Compressed hydrogen -- 8.3.2.3 Cryogenic hydrogen -- 8.3.2.4 Metal hydride -- 8.3.2.5 Metal organic framework -- 8.3.2.6 Cavern and grid storage -- 8.3.2.7 Carbon as a hydrogen carrier -- 8.4 Reuse of hydrogen: fuel cells -- 8.4.1 Fuel cell thermodynamics -- 8.4.2 Fuel cell technologies -- 8.4.2.1 Proton exchange membrane fuel cell -- PEMFC -- 8.4.2.2 Direct methanol fuel cell -- DMFC -- 8.4.2.3 Solid oxide fuel cell -- SOFC -- 8.4.2.4 Alkaline fuel cells -- AFC -- 8.4.2.5 Other fuel cell technologies -- 8.4.2.6 Fuel cell technology overview -- 8.5 Mineral limitations for hydrogen electrochemical systems -- 8.5.1 Key minerals in hydrogen electrochemical systems -- 8.5.2 Challenges and impacts -- 8.5.3 Strategies to address mineral limitations -- 8.6 Perspectives of the requirements for hydrogen -- 8.6.1 Hydrogen in transport -- 8.6.1.1 Hydrogen infrastructure -- 8.6.1.2 Hydrogen production and distribution -- 8.6.1.3 Fuel cell vehicles (FCVs) -- 8.6.1.4 Heavy-duty transport -- 8.6.1.5 Aviation and maritime applications -- 8.6.2 Hydrogen in steel manufacturing -- 8.6.2.1 Technology advancements -- 8.6.2.2 Retrofitting existing plants -- 8.6.2.3 Scaling up demonstration projects -- 8.6.2.4 Circular economy approach -- 8.6.3 Hydrogen in fertilizer production.
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| 505 |
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|a 8.6.3.1 Green hydrogen production -- 8.6.3.2 Ammonia synthesis technologies -- 8.6.3.3 Research and demonstration projects -- 8.6.3.4 Circular economy and sustainable agriculture -- 8.6.4 Further challenges and considerations -- 8.6.4.1 Hydrogen supply and cost-effectiveness -- 8.6.4.2 Energy transition strategies -- 8.6.4.3 Policy support -- 8.6.4.4 Safety and public perception -- Problems -- Solutions -- 9 Supercapacitors for energy storage and conversion -- 9.1 Conventional capacitors -- 9.2 Supercapacitors -- 9.3 Deploying supercapacitors -- 9.4 Pseudo- and hybrid supercapacitors -- Problems -- Solutions -- A Symbols and constants -- Roman letters -- Greek letters -- Constants -- B Adiabatic compression of air -- C Para and ortho hydrogen -- Bibliography -- Index -- Back Cover.
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| 650 |
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0 |
|a Energy storage.
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| 650 |
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6 |
|a Énergie
|x Stockage.
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| 650 |
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7 |
|a Energia
|x Emmagatzematge.
|2 lemac
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| 655 |
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|a Electronic books.
|2 local
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| 700 |
1 |
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|a Lamb, Jacob J.,
|e author.
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| 710 |
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|a ScienceDirect (Online service)
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| 776 |
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|i Print version:
|z 0443267375
|z 9780443267376
|w (OCoLC)1438917713
|
| 856 |
4 |
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|u http://proxy.library.tamu.edu/login?url=https://www.sciencedirect.com/science/book/9780443267376
|z Connect to the full text of this electronic book
|t 0
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|a Elsevier ScienceDirect 2026-2027
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| 994 |
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|a Texas A&M University
|b College Station
|c Electronic Resources
|s www_evans
|d Available Online
|t 0
|e TJ165
|h Library of Congress classification
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| 998 |
f |
f |
|a TJ165
|t 0
|l Available Online
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