Energy Storage
Wiley-Scrivener (Hersteller)
978-0-470-92233-0 (ISBN)
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This book presents practical solutions to the problem of energy storage on a massive scale. This problem is especially difficult for renewable energy technologies, such as wind and solar power, that, currently, can only be utilized while the wind is blowing or while the sun is shining.
If energy storage on a large scale were possible, this would solve many of our society's problems. For example, power grids would not go down during peak usage. Power plants that run on natural gas, for example, would no longer burn natural gas during the off-hours, as what happens now. These are just two of society’s huge problems that could be solved with this new technology.
This is a potentially revolutionary book, insofar as technical books can be "revolutionary." The technologies that are described have their roots in basic chemistry that engineers have been practicing for years, but this is all new material that could revolutionize the energy industry. Whether the power is generated from oil, natural gas, coal, solar, wind, or any of the other emerging sources, energy storage is something that the industry MUST learn and practice. With the world energy demand increasing, mostly due to the industrial growth in China and India, and with the West becoming increasingly more interested in fuel efficiency and "green" endeavors, energy storage is potentially a key technology in our energy future.
Ralph Zito, PhD, has been working in the field of electrical energy for over 30 years.?With more than 40 patents and 60 papers to his credit, his resume is a virtual who's who of energy companies, such as GE, Westinghouse, and Sylvania, to name a few.?He has taught at the Carnegie Institute, where he obtained his doctorate, and done research at?New York University,?where he received his baccalaureate.
Preface. Dedications and Acknowledgements.
1 Introduction.
2 Comments on Classical Mechanics.
2.1 Force.
2.2 Energy Sources.
3 Conversion and Storage.
3.1 Availability of Solar Energy.
3.2 Conversion Processes.
3.3 Storage Processes.
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.
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.
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-2Cell 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.
7 Thermodynamics of Concentration Cells.
7.1 Thermodynamic Background.
7.2 The CIR Cell.
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.
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.
10 Calculated Cell Performance Data.
10.1 Electrical Performance Modeling.
11 Single Cell Empirical Data.
11.1 Design and Construction of Cells and the Materials Employed.
11.2 Experimental Data.
12 Conclusion: Problems and Solutions.
12.1 Pros and Cons of Concentration Cells.
12.2 Future Performance and Limitations.
Appendix 1: A History of Batteries.
Al.1 A History of the Battery.
A1.2 The Electric Car and the Power Source Search.
A1.3 The Initial Survey.
A1.4 Review of a Research Path for a Long-life, High ED Battery.
Appendix 2: Aids and Supplemental Material.
A2.1 Properties of Homogeneous Membranes.
A2.2 The van der Waals Equation and its Relevance to Concentration Cells.
A2.3 Derivation of Electrolyte Interconnectivity Losses.
A2.4 Efficiency Calculations.
A2.5 Specific Resistivity and Specific Gravity of Some Reagents.
Bibliography.
Index.
| Erscheint lt. Verlag | 25.8.2010 |
|---|---|
| Reihe/Serie | Wiley-Scrivener |
| Sprache | englisch |
| Themenwelt | Naturwissenschaften ► Chemie |
| Technik ► Elektrotechnik / Energietechnik | |
| ISBN-10 | 0-470-92233-8 / 0470922338 |
| ISBN-13 | 978-0-470-92233-0 / 9780470922330 |
| Zustand | Neuware |
| Informationen gemäß Produktsicherheitsverordnung (GPSR) | |
| Haben Sie eine Frage zum Produkt? |
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