Estimation of power losses in single-junction gallium-arsenide solar photovoltaic cells

Estimation of power losses in single-junction gallium-arsenide solar photovoltaic cells

•In this paper, GaAs solar cell (0.5 W, 3 W and 5 W) connected with different schemes and estimated fractional power loss.•The graphical representation of cell characteristics parameters with fill factor has considered for analysis.•Fractional power loss estimated of solar cell with series and paral...

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Bibliographic Details
Published in:International Journal of Thermofluids Vol. 17; p. 100303
Main Authors: Dhass, A.D., Patel, Dhiren, Patel, Bhavesh
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-02-2023
Elsevier
Subjects:
Fill factor
GaAs solar cell
Photovoltaic
Power loss
Series-parallel connection
Power loss
Photovoltaic
Series-parallel connection
Fill factor
GaAs solar cell
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Summary:•In this paper, GaAs solar cell (0.5 W, 3 W and 5 W) connected with different schemes and estimated fractional power loss.•The graphical representation of cell characteristics parameters with fill factor has considered for analysis.•Fractional power loss estimated of solar cell with series and parallel connection schemes and it provides range of 11.82 × 10−3 – 11.81 × 10−3 for M = 2 and 11.82 × 10−3 – 11.71 × 10−3 for M = 14. Solar photovoltaic (PV) cell technology plays a vital role in generating a few watts to megawatts of scale electrical energy for residential as well as commercial uses. The power output of the PV arrays is directly affected by the solar cells’ connection schemes, like, parallel, series, and series-parallel. In this study, the fractional power losses in gallium arsenide (GaAs) PV cells with power ratings of 0.5 W, 3 W, and 5 W were analyzed with different cells arrangement considering simple series, parallel and series-parallel schemes. The solar cell array with a parallel connection scheme reduces power loss by 28.57% compared to series schemes. In the series-parallel scheme, the number of parallel connections (M) is increased from 2 to 14 which leads up to a 0.014% (M = 2) – 0.3% (M = 14) reduction in power loss for 0.5 W solar cells. In series and parallel connection schemes, the highest power loss of 5 W cells in a range of 0.025–0.03 W and 3.5 × 10−3 – 4 × 10−3 W respectively.
ISSN:2666-2027
2666-2027
DOI:10.1016/j.ijft.2023.100303