Advances in Energy Storage: Latest Developments from R&d to the Market
Object category:
Elektronische Ressource
Person/Institution:
Publisher:
John Wiley & Sons, Incorporated
Place of publication:
Newark
Date:
2022
Extent, illustration, format:
1 online resource (929 pages)
Language:
Englisch
Providing institution:
Additional information
Abstract:
Intro -- Advances in Energy Storage -- Contents -- List of Contributors -- 1 Energy Storage Solutions for Future Energy Systems -- 1.1 The Role of Energy Storage -- 1.2 The Definition of Energy Storage -- 1.2.1 What is an Energy Storage? -- 1.2.2 What is Actually Stored? -- 1.2.3 Energy Storage System and Its Application -- 1.2.4 Energy and Power Storage -- 1.2.5 Temporal Mismatch between Supply and Demand -- 1.3 Technologies for Energy Storage -- 1.3.1 How Can Energy be Stored? -- 1.3.2 Structure of Energy Storage Technologies -- 1.4 Applications for Energy Storage -- 1.4.1 List of Applications -- 1.4.2 Energy Storage Configurations and New Fields of Application -- Part I Electrochemical, Electrical, and Super Magnetic Energy Storages -- 2 An Introduction to Electrochemistry in Modern Power Sources -- 2.1 Introduction -- 2.2 Electrode Reactions -- 2.3 Electrochemical Cells -- 2.4 The Case for Electrochemical Power Sources -- 2.5 The Thermodynamics of Electrochemical Cells -- 2.6 The Actual Cell Voltage: Thermodynamic, Electrode Kinetic, and Ohmic Losses -- 2.7 Faraday's Laws and Charge Capacity -- 2.8 The Performance of Cells: Charge Capacity and Specific Energy Capability -- 2.9 Types of Electrochemical Device for Energy Conversion -- 3 Standalone Batteries for Power Backup and Energy Storage -- 3.1 Introduction -- 3.2 Standalone Battery Technologies -- 3.2.1 Lead-acid Battery -- 3.2.2 Lithium-ion Battery -- 3.2.3 Redox Flow Batteries -- 3.2.4 Sodium-Sulfur Battery -- 3.3 Comparisons -- 3.4 Conclusions -- 4 Environmental Aspects and Recycling of Battery Materials -- 4.1 Introduction -- 4.2 Classical Batteries -- 4.3 Summary -- 4.4 Future Perspectives -- 4.5 Future Developments -- 5 Supercapacitors for Short-term, High Power Energy Storage -- 5.1 Introduction -- 5.2 Electrode Materials -- 5.2.1 Carbons -- 5.2.2 Conducting Polymers.
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Contact
Universität Erfurt
Forschungsbibliothek Gotha
Schloss Friedenstein
Schlossplatz 1
99867 Gotha
+49 361 737-5540
bibliothek.gotha(at)uni-erfurt.de
Forschungsbibliothek Gotha
Schloss Friedenstein
Schlossplatz 1
99867 Gotha
+49 361 737-5540
bibliothek.gotha(at)uni-erfurt.de
Administrative details
Created:
2023-04-12
Last changed:
2022-05-27
Added to portal:
2023-04-12
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