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Technological prerequisites for the energy and raw materials independence of state and corporative economies /
| Clasificación: | Libro Electrónico |
|---|---|
| Autores principales: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Publishers,
2014.
|
| Colección: | Energy science, engineering and technology series.
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- TECHNOLOGICAL PREREQUISITES FOR THE ENERGY AND RAW MATERIALS INDEPENDENCE OF STATE AND CORPORATE ECONOMIES; Library of Congress Cataloging-in-Publication Data; Contents; Preface; Chapter 1: Engines and Antennas in Solar Energy Conversion; Abstract; 1. Perfect Solar-Heat Engine; 1.1. Introduction; 1.2. Solar Energy Conversion; 1.2.1. Solar Cell Model; 1.2.2. Non-Work Production Conversion; 1.3. Reversible Conversion; 1.3.1. Conversion during the Carnot Cycle; 1.3.1.1. Heat Engine; 1.3.1.2. Solar Engine; 1.3.1.3. Perfect Solar-Heat Engine; 1.3.2. Conversion during Non-Carnot Cycle.
- 1.3.2.1. Solar Engine1.3.2.2. Heat Engine; 1.3.3. Current Densities Balance; 1.4. Working Body as a Combination of Matter and Radiation; 1.4.1. Conversion without Irrevocable Losses; 1.4.2. Conversion with Irrevocable Losses; 1.5. Combinations of Reversible and Irreversible Energy Conversions; 1.6. Reversible and Irreversible Non-Working Processes Balanced; 1.7. Perfect Solar-Heat and Landsberg Engines; 1.8. Conclusion; 2. Photon Antenna: Quantum and Thermodynamic Features; Abstract; 2.1. Antenna States of Absorber Particles; 2.2. Antenna Process as Photon Reemissions.
- 2.3. Reversible Photon Antenna2.4. The Photon Antenna as a Quasistatic Process; 2.5. The Photon Antenna as a Non-Working Process; 2.6. The Antenna Process in Nature and Technique; 2.6.1. Antenna Processes and Radiation Temperature; 2.6.2. Antenna Processes and Photon Cutting; 2.6.3. The Antenna Process in Plant Foliage; 2.7. Conclusion; 3. Antenna Design as a Key to the Perfect Solar Conversion; References; Chapter 2: The Photon Antenna in Different Sciences; Abstract; 1. Photon Exchange in Atomic Groups; 1.1. Introduction; 1.2. Photon Antenna: Quantum and Thermodynamic Features.
- 1.3. The Photon Antenna in the Crystal Structure Theory1.4. Photons and Crystal in the System Theory; 2. Photon Absorption in Crystal-Chemical Symbolism; Abstract; 2.1. The Photon and Crystal Cell as an Elementary Entity of Matter; 2.2. Photon Absorption by the Atoms of a Crystal Cell in MgO; Abstract; 2.3. Photon Absorption by Magnesium Film; The Crystal as a Non-Ideal Radiator and Absorber; Equilibrium Frequencies of a Non-Ideal Radiator; Useful Work on the Equilibrium Frequencies; Thermodynamic Calculation of Equilibrium Frequencies; Magnesium Film as a Non-Ideal Absorber.
- 2.4. Absorption Spectra Correlation of Mg in Vapor, Metal, and Oxide2.5. Absorption Spectra Correlation of Soot, Graphite, and Diamond; 2.6. Asymmetric Nanoclusters as Effective Photon Absorber; 2.7. Conclusion; 3. Predissociation and Crystallochemical Vacancies; 3.1. Photon Absorption by a Finite Group of Atomic Particles; 3.1.1. Predissociation of Molecules; 3.1.2. Prerequisite of Photopredissociation in a Crystal; 3.2. Finite Atomic Groups in a Crystal; Abstract; 3.2.1. Short-Range Order in Bravais Lattices; 3.2.2. The Short-Range Order of a Crystal as Finite Particle Groups.