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Solar Thermal Energy

  • Reference work
  • © 2022

Overview

Editors:
  1. Spiros Alexopoulos

    1. Solar-Instititut Jülich (SIJ), FH Aachen University of Applied Sciences, Jülich, Germany

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  2. Soteris A. Kalogirou

    1. Department of Mechanical Engineering and Material Science and Engineering, Cyprus University of Technology, Limassol, Cyprus

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  • Covers a wide range of technologies and applications that actively convert solar radiation into useful heat
  • Includes a glossary of key terms and definitions
  • Features peer-reviewed contributions from leading experts

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Table of contents (19 entries)

  1. Front Matter

    Pages i-xix
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  2. Introduction

    1. Front Matter

      Pages 1-1
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    2. Solar Thermal Energy: Introduction

      • Spiros Alexopoulos, Soteris A. Kalogirou, Christoph Richter
      Pages 3-6

    3. Solar Thermal Energy: History

      • Soteris A. Kalogirou
      Pages 7-19

  3. Solar Thermal Concentrated Systems

    1. Front Matter

      Pages 21-21
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    2. Estimation of Concentrated Solar Power Potential

      • Spiros Alexopoulos
      Pages 23-42

    3. Parabolic Trough Solar Technology

      • Eckhard Lüpfert
      Pages 43-54

    4. Linear Fresnel Collectors

      • Andreas Häberle
      Pages 55-62

    5. Concentrating Receiver Systems (Solar Power Tower)

      • Spiros Alexopoulos, Bernhard Hoffschmidt
      Pages 63-110

    6. Solar Dish Systems

      • Joe Coventry
      Pages 111-133

    7. Solar Updraft Towers

      • Gerhard Weinrebe, Rudolf Bergermann, Jörg Schlaich
      Pages 135-166

  4. Application of Solar Thermal Concentrated Systems

    1. Front Matter

      Pages 167-167
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    2. Parabolic Trough and Solar Tower Power Plants, Measuring Systems, Testing, and Monitoring Methods

      • Markus Sauerborn
      Pages 169-185

    3. Dynamical Behavior of CSP Plants

      • Tobias Hirsch, Jürgen Dersch, Kareem Noureldin, Bijan Nouri, Daniel Maldonado Quinto, Peter Schwarzbözl et al.
      Pages 187-213

    4. Solar Simulators

      • D. Laaber
      Pages 215-243

    5. Porous Materials for Solar Energy Harvesting, Transformation, and Storage

      • Christos Agrafiotis, Thomas Fend, Martin Roeb
      Pages 245-283

    6. Thermal Energy Storage

      • Rainer Tamme, Doerte Laing, Wolf-Dieter Steinmann, Thomas Bauer
      Pages 285-313

    7. Solar Energy in Thermochemical Processing

      • Anton Meier, Aldo Steinfeld
      Pages 315-347

  5. Non-concentrating Solar Thermal Systems and Their Application

    1. Front Matter

      Pages 349-349
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    2. Solar Collectors, Non-concentrating

      • Stefan Fortuin, Gerhard Stryi-Hipp, Wolfgang Kramer, Korbinian Kramer
      Pages 351-371
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Keywords

About this book

This volume of the Encyclopedia of Sustainability Science and Technology, Second Edition, describes technologies that actively convert solar radiation into useful heat in a temperature range from just above ambient up to more than 1,000°C. Applications cover a broad range of energy services such as space heating, cooking, domestic hot water supply, electrical power generation, and high temperature thermochemical processes. The major developments that have led to currently available technologies for solar thermal energy applications were initiated mainly after the first oil shock in 1973. Solar thermal energy is widely used already for heating purposes (water, space) in the “low” temperature range up to about 100°C employing mainly nonconcentrating collectors, whereas higher temperatures can be achieved with more sophisticated solar collector technologies. Temperatures over 200°C typically require concentrating solar radiation using mirror systems. Several different technologies are described in detail in this volume, including solar collector systems in the lower temperature range, the direct use of solar radiation for food processing, namely cooking and drying, the production of electricity through conversion of solar radiation first to heat, driving a mechanical conversion system coupled to an electric generator, the use of solar radiation to drive chemical processes, and many more.



Editors and Affiliations

  • Solar-Instititut Jülich (SIJ), FH Aachen University of Applied Sciences, Jülich, Germany

    Spiros Alexopoulos

  • Department of Mechanical Engineering and Material Science and Engineering, Cyprus University of Technology, Limassol, Cyprus

    Soteris A. Kalogirou

About the editors

Professor Spiros Alexopoulos works in the Department of Energy Technology at the FH Aachen University of Applied Sciences. He received his intermediate diploma in physics from the Westfälischen Wilhelms-University Münster (1995) and his diploma in physics from the Rheinischen FriedrichWilhelms-University Bonn (1999). He received his PhD in mechanical engineering from the University of Siegen, Germany (2003), and he was then a doctoral researcher at the Institute of Thermal Thermodynamics, Solar Research, at the German Aerospace Center, Köln-Porz, Germany. He was employed as a research associate by Solar-Institut Jülich from 2005 to 2010 and became head of the Regenerative Systems Department in 2011. In 2014, he became a professor at the FH Aachen University of Applied Sciences and he is now head of the Laboratory for Thermodynamics. Since 2015, he has been a member of the board of directors of the Solar-Institut Jülich at the FH Aachen University of Applied Sciences. His research interests include solar thermal systems, (hybrid) solar tower power plants, water desalination using solar energy, and energy system solutions for the Mediterranean region.




Professor Soteris A. Kalogirou works in the Department of Mechanical Engineering and Materials Sciences and Engineering at the Cyprus University of Technology, Limassol, Cyprus. He is currently the dean of the School of Engineering and Technology. In addition to his Ph.D., he holds the title of D. Sc. He is a fellow of the European Academy of Sciences and founding member of the Cyprus Academy of Sciences, Letters and Arts. For more than 35 years, he has been actively involved with research in the area of solar energy and particularly in flat plate and concentrating collectors, solar water heating, solar steam-generating systems, desalination, photovoltaics, geothermal energy, and absorption cooling. He has a large number of publications as books, book chapters, international scientific journals, and refereed conference proceedings. He is the editor-in-chief of Renewable Energy, deputy editor-in-chief of Energy, and editorial board member of another 20 journals. Professor Kalogirou is the editor of the book Artificial Intelligence in Energy and Renewable Energy Systems, published by Nova Science Inc.; co-editor of the book Soft Computing in Green and Renewable Energy Systems, published by Springer; editor of the book McEvoy’s Handbook of Photovoltaics, published by Academic Press of Elsevier; and author of the books Solar Energy Engineering: Processes and Systems and Thermal Solar Desalination: Methods and Systems, published by Academic Press of Elsevier. He is a member of the World Renewable Energy Network (WREN), American Society of Heating Refrigeration and Air-conditioning Engineers (ASHRAE), the Institute of Refrigeration (IoR), and the International Solar Energy Society (ISES).





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