Jha, A. R.
Solar Cell Technology and Applications
太陽電池技術と応用
Auerbach 2009.10
304 pp.(H)
ISBN 1-4200-8177-2
16,400円
Contents
1.Chronological History and Scientific Advancements in the Development of Solar Cell Technology/ 2.Design Expressions and Critical Performance Parameters for Solar Cells/ 3.Classification of Solar Cells Based on Performance, Design Complexity, and Manufacturing Costs/ 4.Techniques to Enhance Conversion Efficiencies of Solar Cells/ 5.Solar Cells Deploying Exotic Materials and Advanced Design/ 6.Configurations for Optimum Performance/ 7.Solar Cell and Array Designs Best Suited for Space Applications/ 8.Design Requirements for Stand-Alone and Grid-Connected PV Systems/ 9.Performance Capabilities and Economic Benefits of Potential/ 10.Alternate Energy Sources/ Index/ *
Lorenzini, G. et al.
Solar Thermal and Biomasses
Renewable Energy for a Sustainable Development
WIT Press 2010.1
200 pp.(H)
ISBN 1-84564-147-7
14,000円
Contents
* The book concerns renewable energy sources and in particular it collects the state-of-the-art in thermal solar techniques and biomasses. The first topic treated is solar radiation, which follows on by showing the possible utilisations of solar energy through thermal solar techniques. The last part of the book relates to biomasses, starting from the definition of this wide-range field and how it successively is treated by obtaining energy from biomasses and all the environmental aspects linked to this topic.
* Very few books treat so diffusely the state-of-the-art in thermal solar technologies and especially in biomasses, a topic in which there is a bit of confusion due to the very wide range of technologies related to this technology. *
Kalyanasundaram, K.
Dye-sensitized Solar Cells
CRC Press 2009.12
320 pp.(H)
ISBN 1-4398-0866-X
11,400円
Contents
* Several forms of thin-film solar cells are being examined as alternatives to silicon-solar cellse of the most promising technologies is the dye-sensitized solar cell (DSC), with proven efficiencies that approach 11%.
* This book, which provides a comprehensive look at this promising technology, aims to provide both a graduate level text that brings together the fundamentals of DSC from three perspectives (materials, performance, and mechanistic aspects), as well as to serve as an advanced monograph that summarizes the key advances and lists the technical challenges remaining to be solved. *
Sahin, A. & Kaya, H. ed.
Thin-Film Solar Cells
Nova Science Pub. 2010.1
(H)
ISBN 1-60741-818-5
11,200円
Contents
1.Bridgman-grown CuInSe2/ 2.Review on Sulfur Compounds Deposited by Spray Pyrolysis Technique as Buffer and Absorber Thin Films for Solar Cells/ 3.Low-cost ZnS1-xSex buffer layers thin films/ 4.Progress in Crystalline Silicon Thin-Film Solar Cells/ 5.Photothermal analyses as an up-to-dated guide of Zn-doped solar cells thin films evaluation/ 6.Formation and characterization of C60- and perylene-based bulk heterojunction solar cells/ 7.Prospective of hydrogenated amorphous silicon (a-Si:H) thin films in photovoltaics/ Index/
* A thin-film solar cell (TFSC), also called a thin-film photovoltaic cell (TFPV), is a solar cell that is made by depositing one or more thin layers (thin film) of photovoltaic material on a substrate. This book deals with some physical properties of Sulfur binary and ternary thin films used as buffer and absorber layers in solar cells and prepared using economic spray pyrolysis technique. *
Reddy, P. J.
Science and Technology of Photovoltaics 2nd ed.
CRC Press 2009.11
330 pp.(H)
ISBN 0-415-57363-7
14,200円
Contents
1. Fundamentals of Solar Cells/ 2. Solar Cell Technologies/ 3. Solar Modules & Arrays/ 4. Solar Photovoltaic Systems/ 5. Storage Batteries/ 6. Power Conditioning Equipment/ 7. Design, Installation and Operation of a Solar PV System/ 8. Building Integrated Photovoltaics/ 9. Energy Analysis and Environmental Issues/ 10. Market for Photovoltaics/ Annexes: Ann-1: Measurement of I-V Curve of a Solar Cell/ Ann-2: Solar Radiation Measuring Instruments/ Ann-3: PV Module Fabrication/ Ann-4: Measurement of I-V Behaviour of a PV Module/ Ann-5: Format for Estimating Average Dialy Load/ Ann-6: Format for PV System Sizing/ Ann-7: Sizing Example for PV Residential System/ Glossary/ Index/
* A comprehensive introductory text covering solar photovoltaic technologies and its increasing number of applications to generate clean energy around the globe. It treats the fundamentals of solar cells, technologies, solar modules and arrays, solar photovoltaic systems, storage batteries, power conditioning, equipment design of solar PV systems, building integrated photovoltaics, system installation, operation and maintenance, manufacturing and worldwide players and markets. Written in a clear style and with multiple illustrations, this volume is intended for students in natural sciences, engineering and energy management and professionals as an introduction to the subject. *
Manwell, J. F. et al
Wind Energy Explained 2nd ed.
Theory, Design and Application
Blackwell Pub. 2010.2
704 pp.(H)
ISBN 0-470-01500-4
11,700円
Contents
1. Introduction: Modern Wind Energy and its Origins/ 2. Wind Characteristics and Resources/ 3. Aerodynamics of Wind Turbines/ 4. Mechanics and Dynamics/ 5. Electrical Aspects of Wind Turbines/ 6. Wind Turbine Materials and Components/ 7. Wind Turbine Design and Testing/ 8. Wind Turbine Control/ 9. Wind Turbine Siting, System Design, and Integration/ 10. Wind Energy Applications/ 11. Wind Energy System Economics/ 12. Wind Energy Systems: Environmental Aspects and Impacts/ Appendix A: Nomenclature/ Appendix B: Problems/ Appendix C: Data Analysis and Data Synthesis/ References/ Index/ *
Khaligh, A. & Onar, O. C.
Energy Harvesting
Solar, Wind, and Ocean Energy Conversion Systems
CRC Press 2009.12
382 pp.(H)
ISBN 1-4398-1508-9
15,800円
Contents
1. Solar Energy Harvesting/ 2. Wind Energy Harvesting/ 3. Tidal Energy Harvesting/ 4. Ocean Wave Energy Harvesting/ 5. Ocean Thermal Energy Harvesting/ Index/
* Also called energy scavenging, energy harvesting captures, stores, and uses energy sources by employing interfaces, storage devices, and other units. Unlike conventional electric power generation systems, renewable energy harvesting does not use fossil fuels and the generation units can be decentralized, thereby significantly reducing transmission and distribution losses. But advanced technical methods must be developed to increase the efficiency of devices in harvesting energy from environmentally friendly resources and converting them into electrical energy. *
179-31 登録日 10.04.03
