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by Haleh Ardebili, Ralph Zito
Energy Storage, 2nd Edition
Cover
Preface to the First Edition
Preface to the Second Edition
Acknowledgements to First Edition
Acknowledgements to Second Edition
Chapter 1: Introduction
1.1 The Energy Problem
1.2 The Purposes of Energy Storage
1.3 Types of Energy Storage
1.4 Sources of Energy
1.5 Overview of this Book
Chapter 2: Fundamentals of Energy
2.1 Classical Mechanics and Mechanical Energy
2.2 Electrical Energy
2.3 Chemical Energy
2.4 Thermal Energy
Chapter 3: Conversion and Storage
3.1 Availability of Solar Energy
3.2 Conversion Processes
3.3 Storage Processes
Chapter 4: Practical Purposes of Energy Storage
4.1 The Need for Storage
4.2 The Need for Secondary Energy Systems
4.3 Sizing Power Requirements of Familiar Activities
4.4 On-the-Road Vehicles
4.5 Rocket Propulsion Energy Needs Comparison
Chapter 5: Competing Storage Methods
5.1 Problems with Batteries
5.2 Hydrocarbon Fuel: Energy Density Data
5.3 Electrochemical Cells
5.4 Metal-Halogen and Half-Redox Couples
5.5 Full Redox Couples
5.6 Possible Applications
Chapter 6: The Concentration Cell
6.1 Colligative Properties of Matter
6.2 Electrochemical Application of Colligative Properties
6.3 Further Discussions on Fundamental Issues
6.4 Adsorption and Diffusion Rate Balance
6.5 Storage by Adsorption and Solids Precipitation
6.6 Some Interesting Aspects of Concentration Cells
6.7 Concentration Cell Storage Mechanisms that Employ Sulfur
6.8 Species Balance
6.9 Electrode Surface Potentials
6.10 Further Examination of Concentration Ratios
6.11 Empirical Results with Small Laboratory Cells
6.12 Iron/Iron Concentration Cell Properties
6.13 The Mechanisms of Energy Storage Cells
6.14 Operational Models of Sulfide Based Cells
6.15 Storage Solely in Bulk Electrolyte
6.16 More on Storage of Reagents in Adsorbed State
6.17 Energy Density
6.18 Observations Regarding Electrical Behavior
6.19 Concluding Comments
6.20 Typical Performance Characteristics
6.21 Sulfide/Sulfur Half Cell Balance
6.22 General Cell Attributes
6.23 Electrolyte Information
6.24 Concentration Cell Mechanism and Associated Mathematics
6.25 Calculated Performance Data
6.26 Another S/S–2 Cell Balance Analysis Method
6.27 A Different Example of a Concentration Cell, Fe+2/Fe+3
6.28 Performance Calculations Based on Nernst Potentials
6.29 Empirical Data
Chapter 7: Thermodynamics of Concentration Cells
7.1 Thermodynamic Background
7.2 The CIR Cell
Chapter 8: Polysulfide – Diffusion Analysis
8.1 Polarization Voltages and Thermodynamics
8.2 Diffusion and Transport Processes at the (–) Electrode Surface
8.3 Electrode Surface Properties, Holes, and Pores
8.4 Electric (Ionic) Current Density Estimates
8.5 Diffusion and Supply of Reagents
8.6 Cell Dynamics
8.7 Further Analysis of Electrode Behavior
8.8 Assessing the Values of Reagent Concentrations
8.9 Solving the Differential Equations
8.10 Cell and Negative Electrode Performance Analysis
8.11 General Comments
Chapter 9: Design Considerations
9.1 Examination of Diffusion and Reaction Rates and Cell Design
9.2 Electrodes
9.3 Physical Spacing in Cell Designs
9.4 Carbon-Polymer Composite Electrodes
9.5 Resistance Measurements in Test Cells
9.6 Electrolytes and Membranes
9.7 Energy and Power Density Compromises
9.8 Overcharging Effects on Cells
9.9 Imbalance Considerations
Chapter 10: Electrolytes, Separators, and Membranes
10.1 Electrolyte Classifications
10.2 Ionic Conductivity
10.3 Ion Conduction Theory
10.4 Factors Affecting Ion Conductivity
10.5 Transference Number
10.6 Electrolytes for Lithium Ion Batteries
10.7 Electrolytes for Supercapacitors
10.8 Electrolytes for Fuel Cells
10.9 Fillers and Additives
Chapter 11: Single Cell Empirical Data
11.1 Design and Construction of Cells and the Materials Employed
11.2 Experimental Data
Chapter 12: Conclusions and Future Trends
12.1 Future of Energy Storage
12.2 Flexible and Stretchable Energy Storage Devices
12.3 Self-Charging Energy Storage Devices
12.4 Recovering Wasted Energy
12.5 Recycling Energy Storage Devices
12.6 New Chemistry for Electrochemical Cells
12.7 Non-Electrochemical Energy Storage
12.8 Concentration Cells
Appendix 1: A History of Batteries
Appendix 2: Aids and Supplemental Material
Bibliography
Index
End User License Agreement
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