by Dept. of Energy, Assistant Secretary for Energy Technology, Division of Solar Technology in [Washington] .
Written in English
|Statement||prepared by the Kenneth E. Johnson Environmental and Energy Center for U.S. Department of Energy, Assistant Secretary for Energy Technology, Division of Solar Technology|
|Contributions||United States. Dept. of Energy. Division of Solar Technology|
|The Physical Object|
|Pagination||212 p. in various pagings :|
|Number of Pages||212|
The book contains fundamentals of solar radiation, its ecological impacts, applications, especially in agriculture, architecture, thermal and electric energy. Chapters are written by numerous experienced scientists in the field from various parts of the world. Apart from chapter one which is the introductory chapter of the book, that gives a general topic insight of the book, there are 24 more. This book presents methods for optimising the spatial and network configuration of solar radiation measuring stations. Various physical and mathematical models are demonstrated, which together with high quality measurements, provide the essential tools to generate and validate solar resource estimates to improve the mapping of solar resources. Solar-radiation data are often presented in a dimensionless form called the clearness index. The experience gained in the production of European Solar Radiation Atlas has indicated the great importance of having daily time series of global radiation for making sensibly reliable design decisions. Otherwise, the day-to-day variability. The book will facilitate the calculation of solar radiation required by engineers, designers and scientists and, as a result, will increase the access to needed solar radiation data. Keywords Cloud architecture artificial neural network behavior cloud amount control distribution fractal learning model modeling neural networks solar power solar.
 D’Agostino, V., Zelenka, A., , Supple menting solar radiation network data b y co-kriging with satellite images. International Journal of Climatology, Concentrating Solar Power: Best Practices Handbook for the Collection and Use of Solar Resource Data. The content was based on the experiences of scientists and engineers from industry, academia, and DOE for identifying the sources, quality, and methods for applying solar and meteorological data . identifying the sources, quality, and methods for applying solar and meteorological data to CSP projects. This handbook presents detailed information about solar resource data and the resulting data. Solar radiation reaches earth's surface as (1) direct (beam) solar radiation, (2) diffuse solar radiation, and (3) reflected radiation, which can be neglected. The total radiation received from the sun, of a horizontal surface at the level of the ground for a serene day, is .
concepts that are useful for practical applications of solar radiation. The source of solar energy The Sun, our closest star, is a spherical gaseous self-gravitating bo dy. Solar energy, which is considered as an inexhaustible energy source among renewable energy sources, is the most widely used and studied energy source. In this study, solar radiation value has been modeled by using the data obtained from 10 kW small scale solar power plant established in Selçuklu Region of Konya province. Deciding to apply his skills to more practical applications he started working in solar energy at the UO in Vignola helped establish and manage the UO solar radiation monitoring network that has the longest-running high-quality solar radiation data set in the United States. He has organized a number of solar resource assessment workshops Reviews: 1. Electronics, Instrumentation Design and Engineering. Solar Cell Radiation Handbook J. R. Carter, Jr. TRW Systems Group National Aeronautics and Space Administration Jet Propulsion Laboratory California Institute of Technology Pages. Open: Solar Cell Radiation Handbook A Premium Engineers Edge Membership is required to view this Book.