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Linear Fresnel Reflector Systems for Solar Radiation Concentration

Theoretical Analysis, Mathematical Formulation and Parameters’ Computation using MATLAB

  • Book
  • © 2019

Overview

Authors:
  1. Stavros Karathanasis

    1. Department of Environment and Spatial Planning of Central Macedonia, Decentralized Administration of Macedonia and Thrace, Thessaloniki, Greece

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  • Offers a complete, one-volume guide to the design of Linear Fresnel Reflector (LFR) systems for concentrating solar radiation

  • Provides MATLAB codes online to help solve the non-linear systems analyzed

  • Presents a practical guide for engineers working in solar energy, and for advanced students wishing to understand the theoretical background and practical applications of LFR systems

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Table of contents (10 chapters)

  1. Front Matter

    Pages i-xvi
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  2. Concentration of Solar Radiation

    • Stavros Karathanasis
    Pages 1-12

  3. Solar Radiation

    • Stavros Karathanasis
    Pages 13-72

  4. Geometric Optics

    • Stavros Karathanasis
    Pages 73-96

  5. Linear Fresnel Reflector Systems Design Parameters

    • Stavros Karathanasis
    Pages 97-136

  6. Geometric Optical Losses

    • Stavros Karathanasis
    Pages 137-184

  7. Receiver Secondary Reflector

    • Stavros Karathanasis
    Pages 185-221

  8. Design Parameters

    • Stavros Karathanasis
    Pages 223-276

  9. Case Study—Fresnel Reflector Solar Cookers

    • Stavros Karathanasis
    Pages 277-303

  10. Short Introduction to MATLAB®

    • Stavros Karathanasis
    Pages 305-335

  11. Applications

    • Stavros Karathanasis
    Pages 337-348

  12. Back Matter

    Pages 349-353
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Keywords

About this book

This book offers a complete guide to designing Linear Fresnel Reflector Systems for concentrating solar radiation. It includes theoretical analyses, computational tools and mathematical formulae to facilitate the development, design, construction and application of these systems. In addition, the book presents a concise yet thorough treatment of the theory behind these systems, and provides useful and efficient calculation procedures that can be used to model and develop their practical applications. 


Along with the theoretical analyses provided in the book, the physical background is explained using mathematical formulae, illustrations, graphs and tables. Methods are presented for solving the non-linear mathematical systems that describe a significant variety of cases. In addition, MATLAB codes are supplied (both in the text and online). Consequently, readers interested in applying the methodology presented here will have all the source codes at hand, allowing them to easily expand on them by introducing appropriate modifications for their respective design configuration. 


Given its scope, the book will be of interest to engineers and researchers, who can use their scientific background to help them develop more energy-efficient Linear Fresnel Reflector systems. It will also appeal to students studying these systems for the first time, as it supplies a comprehensive overview of their theoretical analysis and applications. 


Authors and Affiliations

  • Department of Environment and Spatial Planning of Central Macedonia, Decentralized Administration of Macedonia and Thrace, Thessaloniki, Greece

    Stavros Karathanasis

About the author

Stavros Karathanasis has taught in the Postgraduate Study Program (Master Program) on “Environmental Physics” at Aristotle University of Thessaloniki, Greece (School of Physics) since 2003. In addition, he is in charge of the assessment of Environmental Impact Statements (EISs), and the issuing of Environmental Permits for a large variety of activities and works, since 2003. Among them  Power Production from Renewable Energy Sources constitutes a considerable large part

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