Reuse of the reflective light and the recycle heat energy in concentrated photovoltaic system

Hsin Chien Chen; Liann Be Chang; Ho Thea Lin; Ming Jer Jeng; Lee Chow

doi:10.1155/2013/579453

Reuse of the reflective light and the recycle heat energy in concentrated photovoltaic system

Hsin Chien Chen^*
, Liann Be Chang
, Ho Thea Lin
, Ming Jer Jeng
, Lee Chow

^*Corresponding author for this work

Chang Gung University
University of Central Florida

Research output: Contribution to journal › Journal Article › peer-review

1 Scopus citations

Abstract

A complex solar unit with microcrystalline silicon solar cells placed around the centered GaAs triple junction solar cell has been proposed and carried out. With the same illumination area and intensity, the total resultant power shows that the excess microcrystalline silicon solar cells increase the total output power by 13.2% by absorbing the reflective light from the surface of optical collimators. Furthermore, reusing the residual heat energy generated from the above-mentioned mechanism helps to increase the output power by around 14.1%. This mechanism provides a simple method to enhance the utility rate of concentrated photovoltaic (CPV) system. Such concept can be further applied to the aerospace industry and the development of more efficient CPV solar energy applications.

Original language	English
Article number	579453
Journal	International Journal of Photoenergy
Volume	2013
DOIs	https://doi.org/10.1155/2013/579453
State	Published - 2013

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

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10.1155/2013/579453

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title = "Reuse of the reflective light and the recycle heat energy in concentrated photovoltaic system",

abstract = "A complex solar unit with microcrystalline silicon solar cells placed around the centered GaAs triple junction solar cell has been proposed and carried out. With the same illumination area and intensity, the total resultant power shows that the excess microcrystalline silicon solar cells increase the total output power by 13.2\% by absorbing the reflective light from the surface of optical collimators. Furthermore, reusing the residual heat energy generated from the above-mentioned mechanism helps to increase the output power by around 14.1\%. This mechanism provides a simple method to enhance the utility rate of concentrated photovoltaic (CPV) system. Such concept can be further applied to the aerospace industry and the development of more efficient CPV solar energy applications.",

author = "Chen, \{Hsin Chien\} and Chang, \{Liann Be\} and Lin, \{Ho Thea\} and Jeng, \{Ming Jer\} and Lee Chow",

year = "2013",

doi = "10.1155/2013/579453",

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volume = "2013",

journal = "International Journal of Photoenergy",

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T1 - Reuse of the reflective light and the recycle heat energy in concentrated photovoltaic system

AU - Chen, Hsin Chien

AU - Chang, Liann Be

AU - Lin, Ho Thea

AU - Jeng, Ming Jer

AU - Chow, Lee

PY - 2013

Y1 - 2013

N2 - A complex solar unit with microcrystalline silicon solar cells placed around the centered GaAs triple junction solar cell has been proposed and carried out. With the same illumination area and intensity, the total resultant power shows that the excess microcrystalline silicon solar cells increase the total output power by 13.2% by absorbing the reflective light from the surface of optical collimators. Furthermore, reusing the residual heat energy generated from the above-mentioned mechanism helps to increase the output power by around 14.1%. This mechanism provides a simple method to enhance the utility rate of concentrated photovoltaic (CPV) system. Such concept can be further applied to the aerospace industry and the development of more efficient CPV solar energy applications.

AB - A complex solar unit with microcrystalline silicon solar cells placed around the centered GaAs triple junction solar cell has been proposed and carried out. With the same illumination area and intensity, the total resultant power shows that the excess microcrystalline silicon solar cells increase the total output power by 13.2% by absorbing the reflective light from the surface of optical collimators. Furthermore, reusing the residual heat energy generated from the above-mentioned mechanism helps to increase the output power by around 14.1%. This mechanism provides a simple method to enhance the utility rate of concentrated photovoltaic (CPV) system. Such concept can be further applied to the aerospace industry and the development of more efficient CPV solar energy applications.

UR - https://www.scopus.com/pages/publications/84877268144

U2 - 10.1155/2013/579453

DO - 10.1155/2013/579453

M3 - 文章

AN - SCOPUS:84877268144

SN - 1110-662X

VL - 2013

JO - International Journal of Photoenergy

JF - International Journal of Photoenergy

M1 - 579453

ER -

Reuse of the reflective light and the recycle heat energy in concentrated photovoltaic system

Abstract

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