Books on Energy Storage Technology

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We have compiled the list of Best Reference Books on Energy Storage Technology subject. These books are used by students of top universities, institutes and colleges. Here is the full list of best books on Energy Storage Technology along with reviews.

Kindly note that we have put a lot of effort into researching the best books on Energy Storage Technology subject and came out with a recommended list of best books. The table below contains the Name of these best books, their authors, publishers and an unbiased review of books on “Energy Storage Technology” as well as links to the Amazon website to directly purchase these books. As an Amazon Associate, we earn from qualifying purchases, but this does not impact our reviews, comparisons, and listing of these top books; the table serves as a ready reckoner list of these best books.

List of Energy Storage Technology Books with author’s names, publishers, and an unbiased review as well as links to the Amazon website to directly purchase these books.

1. Energy Storage Technologies

1. “Introduction to FACTS Controllers: Theory, Modeling, and Applications (IEEE Press Series on Power Engineering)” by Kalyan K Sen and Mey Ling Sen
2. “Power from the Sun: A Practical Guide to Solar Electricity” by Dan Chiras

“Power from the Sun: A Practical Guide to Solar Electricity” Book Review: This book is easy-to-understand and also comprehensive. It provides a basic understanding of electricity, solar energy and the sun, and solar site assessment. It discusses the types of photovoltaics (PVs) and PV systems and advances in PVs. The text also includes charge controllers, inverters, batteries, and generators. This book is designed to raise solar electricity literacy. It provides a great overview of the many options available. The volume provides the knowledge necessary to communicate effectively with PV installers. This book can serve as a guide for homeowners, business owners, installers, architects and building department officials.

3. “Electric and Hybrid Vehicles: Design Fundamentals” by Iqbal Husain

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“Electric and Hybrid Vehicles: Design Fundamentals” Book Review: This textbook presents a comprehensive systems-level perspective of electric and hybrid vehicles. It emphasizes technical aspects, mathematical relationships and basic design guidelines. The text discusses the emerging technologies of electric vehicles. It is for the young professionals and students in engineering to learn about the area. The book is concise and clear. Its mathematics are necessary minimum. It contains a balanced set of contents of the complex technology. The book includes simulation-based design analysis of electric and hybrid vehicles. The chapters are based on their powertrain components, particularly that of traction inverters, electric machines and motor drives. The important part of the book is autonomous driving as emerging technology. There is a chapter describing the autonomous driving system architecture and the hardware and software needs for such systems.

4. “Smart Metering Design and Applications (SpringerBriefs in Applied Sciences and Technology)” by D P Chandima and K S K Weranga

“Smart Metering Design and Applications (SpringerBriefs in Applied Sciences and Technology)” Book Review: This book briefly focuses on smart metering of electricity for next generation energy efficiency and conservation. The contents include discussions on the smart metering concepts. It also discusses existing technologies and systems. The text has design and implementation of smart metering schemes together with detailed examples.

5. “Power System Analysis” by Ramar S

“Power System Analysis” Book Review: This textbook is designed for senior undergraduate students pursuing courses in Electrical and Electronics Engineering. It primarily gives the basic knowledge required for power system planning, operation and control. The contents of the book are presented in a simple, precise and systematic manner. It is written with lucid explanation to easily understand the underlying principles. The book deals with the per phase analysis of balanced three-phase system and per unit values. It also discusses application including modelling of generator, transformer, transmission line and loads. It explains various methods of solving power flow equations and discusses fault analysis (balanced and unbalanced) using bus impedance matrix. It describes various concepts of power system stability. Also, explain numerical methods such as the Euler method, modified Euler method and Runge–Kutta methods to solve the Swing equation. Besides, the volume includes a flowchart for computing symmetrical and unsymmetrical fault current, power flow studies and for solving the Swing equation. It has a large number of solved numerical problems and short–answer questions with answers at the end of each chapter. This textbook is useful to the postgraduate students of power systems engineering as a reference.

6. “Intelligent Automatic Generation Control” by Hassan Bevrani and Takashi Hiyama

“Intelligent Automatic Generation Control” Book Review: This book discusses several new schemes using intelligent control techniques for simultaneous minimization of system frequency deviation. It also has tie-line power changes, which is required for successful operation of interconnected power systems. The text explains physical and engineering aspects. Also, it examines several developed control strategies using real-time simulations. This reference is useful for engineers and operators in power system planning and operation.

7. “Photovoltaic Design and Installation For Dummies” by Ryan Mayfield

“Photovoltaic Design and Installation For Dummies” Book Review: This volume gives a comprehensive overview of the history, physics, design, installation, and operation of home-scale solar-panel systems. It has an introduction to the foundational mathematical and electrical concepts. The book covers all aspects of home-scale solar-power systems. It is useful for professionals, students, and technical laymen. The book is helpful to study for the NABCEP exam.

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8. “Energy Storage” by Robert Huggins
9. “Energy Storage for Sustainable Microgrid” by David Wenzhong Gao Dr

“Energy Storage for Sustainable Microgrid” Book Review: The book discusses the issues related to modelling, operation and control, steady-state and dynamic analysis of microgrids with ESS. This book explains major electricity storage technologies in depth along with their efficiency, lifetime cycles, environmental benefits and capacity. The volume offers solutions to numerous problems such as choosing the right ESS for the particular microgrid application and etc. It also includes proper sizing of ESS for microgrids, as well as design of ESS control systems for proper interfacing with the microgrid.

10. “Solar Thermal Energy Storage” by H P Garg and S C Mullick


2. Energy Storage Devices

1. “Multifunctional Nano-Structures for Energy Storage Devices” by Imran Shakir and Dae Joon Kang

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“Multifunctional Nano-Structures for Energy Storage Devices” Book Review: This book has a simple and an efficient method to improve the conductivity of metal oxide nanowires based electrodes. It explains the interweaving nanowires with MWCNTs to form hybrid energy storage devices which allow fast electron transport, fast ion diffusion and high-energy storage densities. Moreover, it explains MWCNTs accommodation of large strains without pulverization.

2. “Carbon Nanotube Film for Electrochemical Energy Storage Devices” by Jiepeng Rong

“Carbon Nanotube Film for Electrochemical Energy Storage Devices” Book Review: This book is an introduction to carbon nanotube synthesis and properties. It discusses the working principles of supercapacitors and lithium-ion batteries. There are chapters on the applications of carbon nanotube film in various electrochemical energy storage devices. Also it includes a simple method to fabricate tandem structure of porous silicon film on carbon nanotube film. The following chapter explains the carbon nanotube films and its application in stretchable supercapacitors.

3. “Novel Inorganic Nanofibers for Energy Storage Devices” by Kim Hak Yong and Barakat Nasser
4. “Recent Advances in Energy Storage Materials and Devices (Materials Research Foundations)” by Li Lu

“Recent Advances in Energy Storage Materials and Devices (Materials Research Foundations)” Book Review: This book is comprehensive and Easy to read. It covers topics ranging from the principle of Li-ion batteries, cathode and anode electrode materials to future energy storage systems. It also includes solid electrolyte for all-solid-state batteries and high capacity redox flow batteries. The chapters provide comprehensive understanding of the fundamentals of energy storage. The chapters are based on Faradic and non-Faradaic mechanisms and explain materials and devices for future energy storage.

5. “Conducting Polymer Nanocomposites for Supercapacitors” by Subhash B Kondawar

“Conducting Polymer Nanocomposites for Supercapacitors” Book Review: This book helps in understanding the basics of conducting polymer technology and nanostructuration of conducting polymers. It also discusses their composites as a new field of research and development. The concepts of supercapacitors are explained in simple and concise form. This is helpful to avoid the confusion of students and academic professionals. The book has chemical engineering orientation. Also the professionals from the polymer science field can go for it. It provides an opportunity to learn about conducting polymers and nanocomposites, and their production and processing technology for supercapacitors. The attention is mainly focused on preparation of conducting polymer based binary and ternary nanocomposites. This book is a reference for scientists, engineers, and students.

6. “Microfluidic Fuel Cells and Batteries (SpringerBriefs in Energy)” by Erik Kjeang

“Microfluidic Fuel Cells and Batteries (SpringerBriefs in Energy)” Book Review: This book represents a special type of electrochemical power generator that can be miniaturized and integrated in a microfluidic chip. The book explains microfluidic fuel cell and battery technology for electrochemical energy conversion and storage. The book is to provide a comprehensive resource for both research and technology development. It describes the fundamental theory, fabrication methods, and cell design principles.

7. “Organometallics and Related Molecules for Energy Conversion (Green Chemistry and Sustainable Technology)” by Wai-Yeung Wong

“Organometallics and Related Molecules for Energy Conversion (Green Chemistry and Sustainable Technology)” Book Review: This book presents a perspective of the applications of organometallic compounds (including those with metal or metalloid elements). It also explains other related metal complexes as versatile functional materials in the transformation of light into electricity (solar energy conversion) and electricity into light (light generation in light emitting diode). The major discussed area is the reduction of carbon dioxide to useful chemicals. This book focuses on recent research developments in these emerging areas. It has emphasis on fundamental concepts and current applications of functional organometallic complexes.

8. “Photovoltaic Solar Energy Generation (Springer Series in Optical Sciences)” by Volker Uwe Hoffmann and Adolf Goetzberger

“Photovoltaic Solar Energy Generation (Springer Series in Optical Sciences)” Book Review: This book provides an impression of all aspects of p- tovoltaics (PV). It is about physics and technology and systems. The first chapter is an introduction to the subject. Chapters 2–4 describe very briefly the basic physics and technology of the solar cell. The following chapters discuss the material and new concepts. The text provides an impression of the many possibilities that exist for the conversion of solar radiation into electricity by solid state devices. Also the book gives an introduction to cell and module techn- ogy. The following chapters explain the practical applications. There are topics which introduce systems technology for different applications. The envir- mental impact of PV systems and their reliability is the subject of Chap.9.

9. “Batteries for Portable Devices” by Gianfranco Pistoia

“Batteries for Portable Devices” Book Review: This book provides a comprehensive overview of all batteries used in portable electric and electronic. It has topics ranging from the cellular phone to portable CD and cardiac pacemakers. The text provides information on the performance of commercial batteries. It has graphically illustrated and comparisons. This easy-to-read book also contains useful information on topics such as battery collection, recycling and market trends. It contains an extensive bibliography. The volume includes rarely discussed topics, such as battery collection and recycling.

10. “Energy Storage Devices for Electronic Systems: Rechargeable Batteries and Supercapacitors” by Nihal Kularatna

“Energy Storage Devices for Electronic Systems: Rechargeable Batteries and Supercapacitors” Book Review: This book provides knowledge about supercapacitor applications. It strengthens understanding of energy storage from a practical, applications-based point-of-view. The text provides explanations of the latest energy storage devices in a practical applications-based context. Moreover, It includes examples of circuit designs that optimize the use of supercapacitors. It has pathways to improve existing designs by effectively managing energy storage devices crucial to both low and high power applications. The volume covers batteries, BMS (battery management systems) and cutting-edge advances in supercapacitors. Thus, it provides a compare and contrast examination demonstrating applications where each technology can offer unique benefits.


3. Nanomaterials for Advanced Electrochemical Energy Storage and Conversion

1. “Nanostructured Materials for Electrochemical Energy Production and Storage” by Leite and Edson Roberto

“Nanostructured Materials for Electrochemical Energy Production and Storage” Book Review: The book talks about various aspects of nanostructured materials. It targets workers of the materials industry. Nanostructured materials and different properties are discussed in the book. Performance characteristics and improving the efficiency are also covered.

2. “Carbons for Electrochemical Energy Storage and Conversion Systems” by Francois Beguin

“Carbons for Electrochemical Energy Storage and Conversion Systems” Book Review: The focus of the book is on the properties of carbon based materials. It can be of interest to students, researchers and material science scientists. The book begins with an introduction to electrochemical principles and methods. Further, conventional and generic carbons are covered. Methods of manufacture and treatment of advanced carbons are also discussed. Electrochemical behaviour of carbons and the underlying principles are studied. Readers can also find a plethora of tables, illustrations and problems throughout the text.

3. “Electrochemical Technologies for Energy Storage and Conversion” by Jiujun Zhang

“Electrochemical Technologies for Energy Storage and Conversion” Book Review: The book deals with properties of electrochemical properties. It can be accessed by newcomers to the field as well as researchers carrying out studies in the field. A variety of conversion methods and devices of electrochemical energy such as batteries, fuel cells, supercapacitors, hydrogen generation, storage and solar energy conversion are covered. Manufacturing processes of these devices for electrochemical energy conversion are described. Materials and components employed in these applications are highlighted.

4. “Solar Energy Conversion and Storage: Photochemical Modes (Electrochemical Energy Storage and Conversion)” by Suresh C Ameta and Rakshit Ameta

“Solar Energy Conversion and Storage: Photochemical Modes (Electrochemical Energy Storage and Conversion)” Book Review: The book emphasises on solar energy conversion. It targets graduate students and researchers involved in the field. Focus is on solar energy conversion and storage in different ways and forms. A wide variety of solar cells such as photovoltaic cells, photogalvanic cells, photoelectrochemical cells and dye-sensitized solar cells are covered. Electricity generation using solar cells as well as storage of the light energy in electrochemical form is also discussed. Scope of the field such as usage of nanoparticles is given importance.

5. “Nanomaterials for Solid State Hydrogen Storage (Fuel Cells and Hydrogen Energy)” by Robert A Varin and Tomasz Czujko

“Nanomaterials for Solid State Hydrogen Storage (Fuel Cells and Hydrogen Energy)” Book Review: The book talks about hydrogen storage materials. It can be of use to researchers and the academics of the pertaining fields. An overview of hydrides and nanomaterials is provided. Various fabrication methods of storage devices are described. Behaviour of these storage devices is also studied. Recent technological advances in the field are also accounted for.

6. “Nanomaterials in Advanced Batteries and Supercapacitors (Nanostructure Science and Technology) ” by Kenneth I Ozoemena and Shaowei Chen

“Nanomaterials in Advanced Batteries and Supercapacitors (Nanostructure Science and Technology)” Book Review: The book deals with various aspects of electrochemical energy storage systems. It is written for graduate level students and researchers alike. Design and manufacturing processes of nanomaterials as storage devices are described. Performance characteristics as well as optimization strategies are discussed. Mechanical properties of catalysts and electrodes are studied. Emphasis is laid on the scope of the field and the upcoming technologies.

7. “Photochemical Water Splitting: Materials and Applications (Electrochemical Energy Storage and Conversion)” by Neelu Chouhan and Ru-Shi Liu

“Photochemical Water Splitting: Materials and Applications (Electrochemical Energy Storage and Conversion)” Book Review: The main idea of the book is methods of water splitting. It can be read by researchers and scientists mainly. Materials used in photochemical water splitting such as metal oxides, metal chalcogenides, carbides, nitrides and phosphides are covered. Manufacturing processes of photocatalytic materials are described. Properties like chemical composition, particle size, morphology, orientation and aspect ratios of the materials employed in water splitting are elucidated. Recent technological advances of the field are also highlighted.

8. “Nanomaterials for Sustainable Energy (NanoScience and Technology)” by Quan Li

“Nanomaterials for Sustainable Energy (NanoScience and Technology)” Book Review: The book focuses on various properties of nanomaterials. It is recommended to researchers across the domains pertaining to relevant fields. Numerous materials employed in the applications and technology of energy such as solar cells, thermoelectrics, piezoelectronics, solar water splitting, hydrogen production/storage, fuel cells, batteries and supercapacitors are listed. Design and synthesis of nanomaterials is also covered along with methods of evaluation of sustainability. All the important properties of nanomaterials like mechanical, electrical optical properties are elucidated.

9. “Low-cost Nanomaterials: Toward Greener and More Efficient Energy Applications” by Zhiqun Lin and Jun Wang

“Low-cost Nanomaterials: Toward Greener and More Efficient Energy Applications” Book Review: Emphasis is laid on various low-cost nanomaterials and their applications in energy. It can be accessed by students of both undergraduate and graduate level courses as well as researchers. Properties and applications of nanomaterials such as solar cells, energy storage, fuel cells, hydrogen generation and biofuels are covered. Every chapter of the book begins with an introduction to the topic at hand before diving into present technologies and research. Future scope and emerging technologies of the field are also presented.

10. “Materials in Energy Conversion, Harvesting, and Storage” by Kathy Lu

“Materials in Energy Conversion, Harvesting, and Storage” Book Review: The book focuses on both materials and devices modeling. It is recommended to working professionals, researchers as well as graduate students. Concepts related to proton exchange membrane (PEM) cells are given special importance. Device modeling topics like catalyst layer performance and operation, reactor dynamics, macroscopic transport, and analytical models are covered. Topics related to materials modeling such as proton conduction, atomistic structural modeling, quantum molecular dynamics and molecular-level modeling are also highlighted.

11. “Battery-for (Energy Storage) Essential Research: Reports of Progress” by Begum Fouzia and James Tour

“Battery-for (Energy Storage) Essential Research” Book Review: Part of battery to store electric energy and there by to run our everyday life is amazing. Our day by day life is presently essentially gadgets arranged and a portion of the gadgets are battery fueled as well. What we are noticing is a straight line connection between energy, power and battery (for capacity). With the coming of inexhaustible s, for example, wind, sun oriented, hydro or bio-energizes (all contamination free energy powers) job are in play that increments ordinarily the accessibility of energy or power throughout everyday life, However innovation to store energy as power couldn’t be improved at a similar speed. As indicated by Bill Gates absence of suitable asset, sound examination report and enough consideration are a few reasons. All things considered many interconnected components are playing parts in holding advancement in this area. Presentation of lithium battery encouraged us defeating our researchable wireless or toy battery, yet Electric Vehicles or sun based energy offices are as yet confronting capacity issues. Physicists, Engineers and Chemists are proceeding with their exploration altogether over world to plan a less expensive, quicker charging and durable battery as energy stockpiling gadget. By introducing this book to the general population, our goal is to mindful ordinary citizens about the current circumstance. The doubt is to persuade the youthful age towards renewables side. At the point when an incredible number of individuals will begin thinking to discover an answer for a very center issue, we accept a simple arrangement will come out. I energize everybody from all sex, class or classification to peruse this book and give proposals and input to carry change to this book.

12. “Large Energy Storage Systems Handbook (Mechanical and Aerospace Engineering Series)” by Frank S Barnes and Jonah . Levine

“Large Energy Storage Systems Handbook (Mechanical and Aerospace Engineering Series)” Book Review: In the current push to change over to inexhaustible wellsprings of energy, numerous issues raised years back on the financial aspects and the troubles of siting energy stockpiling are by and by being raised today. At the point when a lot of wind, sun powered, and other sustainable power sources are added to existing electrical networks, productive and reasonable energy stockpiling turns into an essential part to permitting a scope of eco-accommodating assets to assume a huge part in our energy framework. To satisfy our planned objective of decreasing reliance on non-inexhaustible wellsprings of energy and lessening our carbon impression, we should figure out how to store and change over these novel assets into pragmatic arrangements. In view of the endeavors of a University of Colorado group gave to expanding the utilization of sustainable power creation inside the flow electrical force network, Large Energy Storage Systems Handbook inspects various ways that energy can be put away and changed over back to power. Analyzing how to improve sustainable age energy stockpiling comparative with monetary and carbon sway, this book talks about issues of dependability, siting, financial aspects, and productivity. Parts incorporate the reasonable items of energy stockpiling, age, and retention of electrical force; the troubles of discontinuous age; and the utilization of siphoned and underground siphoned hydroelectric energy stockpiling. The book features the capacity of compacted air, battery energy, sun oriented warm, and petroleum gas wellsprings of energy. Intensely referred to and effectively available to strategy creators, designers, and understudies the same, this book gives commitments from those dynamic in the field for inclusion of numerous significant themes. With this book as an establishment, these pioneers can build up the limit of force lattices to deal with high environmentally friendly power age infiltration and give a more promising time to come to ages to come.

People who are searching for Free downloads of books and free pdf copies of these books on Energy Storage Technology – we would like to mention that we don’t have free downloadable pdf copies of these good books and one should look for free pdf copies from these Authors only if they have explicitly made it free to download and read them.

We have created a collection of best reference books on “Energy Storage Technology” so that one can readily see the list of top books on “Energy Storage Technology” and buy the books either online or offline.

If any more book needs to be added to the list of best books on Energy Storage Technology subject, please let us know.

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Manish Bhojasia, a technology veteran with 20+ years @ Cisco & Wipro, is Founder and CTO at Sanfoundry. He lives in Bangalore, and focuses on development of Linux Kernel, SAN Technologies, Advanced C, Data Structures & Alogrithms. Stay connected with him at LinkedIn.

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