Challenge and Research Trends of Solar Concentrators

Challenge and Research Trends of Solar Concentrators

Primary and secondary solar concentrators are of vital importance for advanced solar energy and solar laser researches. Some of the most recent developments in primary and secondary solar concentrators were firstly presented. A novel three-dimensional elliptical-shaped Fresnel lens analytical model...

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Bibliographic Details
Other Authors: Liang, Dawei (Editor), Zhao, Changming (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Technology: general issues
History of engineering & technology
luminescent solar concentrator
solar spectrum splitter
power generation in space
microalgae
beam merging
multirod
Nd:YAG
solar furnace
solar flux homogenizer
solar laser
TEM00-mode
solar pumping
twisted light guide
top hat
doughnut-shaped
nanofluid
conical concentrator system
performance comparison
thermal efficiency
Fresnel lens
Gaussian source
groove number
solar flux
optical efficiency
full width at half maximum
concentrator
light guide
optical fiber solar system
solar daylighting
laser
parabolic mirror
solar concentrator
collecting efficiency
conical solar concentrator
performance analysis
solar energy
Ce:Nd:YAG
aspherical lens
side-pumped
uniformity
light-guide
homogenizer
solar-pumped laser
laser efficiency
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Description
Summary:Primary and secondary solar concentrators are of vital importance for advanced solar energy and solar laser researches. Some of the most recent developments in primary and secondary solar concentrators were firstly presented. A novel three-dimensional elliptical-shaped Fresnel lens analytical model was put forward to maximize the solar concentration ratio of Fresnel-lens-based solar concentrators. By combining a Fresnel lens with a modified parabolic mirror, significant improvement in solar laser efficiency was numerically calculated. A fixed fiber light guide system using concave outlet concentrators was proposed. The absence of a solar tracking structure highlights this research. By shaping a luminescent solar concentrators in the form of an elliptic array, its emission losses was drastically reduced. Simple conical secondary concentrator was effective for thermal applications. New progresses in solar-pumped lasers by NOVA University of Lisbon were presented. By adopting a rectangular fused silica light guide, 40 W maximum solar laser power was emitted from a single Ce:Nd:YAG rod. An aspheric fused silica secondary concentrator and a small diameter Ce:Nd:YAG rod were essential for attaining 4.5 % record solar-to-laser power conversion efficiency. A novel solar concentrator design for the efficient production of doughnut-shaped and top-hat solar laser beams were also reported. More importantly, a novel solar concentrator approach for the emission of 5 kW-class TEM00 mode solar laser beams from one megawatt solar furnace was put forward at the end of this book, revealing promising future for solar-pumped lasers.
Physical Description:1 electronic resource (178 p.)
ISBN:books978-3-0365-6038-0
9783036560373
9783036560380
Access:Open Access

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