Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor
We have proposed a fruitful design principle targeting a concentration ratio (CR) >1000× for a typical high concentrating photovoltaics (HCPV) system, on account of a two-concentrator system + homogenizer. The principle of a primary dual-lens concentrator unit, completely analogous basic optics s...
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oai:localhost:PNK-59502022-08-17T05:54:50Z Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor Duc Tu, Vu Ngoc Minh, Kieu High CPV system Solar concentrator We have proposed a fruitful design principle targeting a concentration ratio (CR) >1000× for a typical high concentrating photovoltaics (HCPV) system, on account of a two-concentrator system + homogenizer. The principle of a primary dual-lens concentrator unit, completely analogous basic optics seen in the superposition compound eyes, is a trend not hitherto reported for solar concentrators to our knowledge. Such a concentrator unit, consisting of two aspherical lenses, can be applied to minify the sunlight and reveal useful effects. We underline that, at this stage, the CR can be attained by two orders of magnitude simply by varying the radius ratio of such two lenses known from the optics side. The output beam is spatially minimized and nearly parallel, exactly as occurs in the superposition compound eye 2022-07-13T02:00:03Z 2022-07-13T02:00:03Z 2022 Bài trích https://www.mdpi.com/1996-1073/15/9/3406 https://dlib.phenikaa-uni.edu.vn/handle/PNK/5950 https://doi.org/10.3390/en15093406 en MDPI |
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High CPV system Solar concentrator Duc Tu, Vu Ngoc Minh, Kieu Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
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We have proposed a fruitful design principle targeting a concentration ratio (CR) >1000× for a typical high concentrating photovoltaics (HCPV) system, on account of a two-concentrator system + homogenizer. The principle of a primary dual-lens concentrator unit, completely analogous basic optics seen in the superposition compound eyes, is a trend not hitherto reported for solar concentrators to our knowledge. Such a concentrator unit, consisting of two aspherical lenses, can be applied to minify the sunlight and reveal useful effects. We underline that, at this stage, the CR can be attained by two orders of magnitude simply by varying the radius ratio of such two lenses known from the optics side. The output beam is spatially minimized and nearly parallel, exactly as occurs in the superposition compound eye |
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Bài trích |
author |
Duc Tu, Vu Ngoc Minh, Kieu |
author_facet |
Duc Tu, Vu Ngoc Minh, Kieu |
author_sort |
Duc Tu, Vu |
title |
Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
title_short |
Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
title_full |
Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
title_fullStr |
Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
title_full_unstemmed |
Solar Concentrator Bio-Inspired by the Superposition Compound Eye for High-Concentration Photovoltaic System up to Thousands Fold Factor |
title_sort |
solar concentrator bio-inspired by the superposition compound eye for high-concentration photovoltaic system up to thousands fold factor |
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MDPI |
publishDate |
2022 |
url |
https://www.mdpi.com/1996-1073/15/9/3406 https://dlib.phenikaa-uni.edu.vn/handle/PNK/5950 https://doi.org/10.3390/en15093406 |
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8.891145 |