Reprint

Research on Solar Collector

Edited by
July 2020
212 pages
  • ISBN978-3-03936-421-3 (Hardback)
  • ISBN978-3-03936-422-0 (PDF)

This is a Reprint of the Special Issue Research on Solar Collector that was published in

Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Physical Sciences
Summary

The use of concentrated solar technologies has grown significantly worldwide in the last decade but the research and development of this renewable energy technology still needs to be advanced to guarantee its competitiveness with other energy sources. Challenges remain with reducing costs, optimizing the systems design, and increasing the performance and durability of the systems.This Special Issue on research on solar collectors presents some recent developments and studies on tracking-solar collectors for medium- to high-temperature applications, both line- and point-focus systems, conceived for the supply of heat in industrial processes, to provide thermal energy to a power block for electricity production, or even to combine heat and electricity generation in a solar collector unit (CPV/T). The articles included in this Special Issue cover theoretical or practical issues on geometrics optics, thermal–hydraulic modelling, and performance analysis, focusing on the following topics:• Solar towers: heliostat fields analysis and optimization• Solar towers: heat transfer media studies• Parabolic troughs: evacuated solar receivers analysis and thermal–hydraulic modelling• Fresnel reflectors: geometrics optics and manufacturing issues• Fresnel lens in CPV• Energy losses in solar collectors systems

Format
  • Hardback
License and Copyright
© 2020 by the authors; CC BY-NC-ND license
Keywords
linear Fresnel lens; concentrator photovoltaic (CPV) system; high concentrator ratio; uniform irradiance distribution; solar-power tower; liquid sodium; solar salt; Hitec; heat flux; solar energy; linear Fresnel collector; mirror facet; manufacturing process; geometrical quality; parabolic trough solar field; thermal and hydraulic model; validation; control; photovoltaics; solar concentrators; solar cells; geometrical optics; concentrator photovoltaics; spherical lens; solar furnace; Monte Carlo ray tracing; finite element method; factor influence; parabolic trough receiver; vacuum performance; partial vacuum pressure; optical fiber spectrometer; gas discharge; photovoltaic (PV) module; hail simulation; resistance of photovoltaic modules; energy losses; newly-created testbed; heliostat field; solar flux; genetic algorithm; optimized dispatch; LFR; IAM; intercept factor; CPC; opto-geometric optimization; ray-tracing; CSP; solar; spherical concentrator; Fresnel; stationary reflector; tracking absorber