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Modeling analysis of bifacial photovoltaic panels performance

Azooz, Aasim A. / Ali, Zeyad T.

A quantitative model-based analysis was conducted to estimate the percentage output energy ratio of bifacial photovoltaic (PV) modules compared to monofacial ones of equal area operating under the same conditions. The operating conditions involve latitude position, albedo, season, and PV bifaciality. The results demonstrate that bifacial installations can produce monthly, seasonal, and yearly energy gains ranging between 8% and 35% compared to monofacial modules when both types are installed at the optimum installation angle for the particular latitude considered. The gain tends to show general increase with increasing latitude and albedo. Good agreement with published experimental results is observed.

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Modeling analysis of bifacial photovoltaic panels performance

Azooz, Aasim A. / Ali, Zeyad T.

A quantitative model-based analysis was conducted to estimate the percentage output energy ratio of bifacial photovoltaic (PV) modules compared to monofacial ones of equal area operating under the same conditions. The operating conditions involve latitude position, albedo, season, and PV bifaciality. The results demonstrate that bifacial installations can produce monthly, seasonal, and yearly energy gains ranging between 8% and 35% compared to monofacial modules when both types are installed at the optimum installation angle for the particular latitude considered. The gain tends to show general increase with increasing latitude and albedo. Good agreement with published experimental results is observed.

Modeling analysis of bifacial photovoltaic panels performance

Azooz, Aasim A. / Ali, Zeyad T.

A quantitative model-based analysis was conducted to estimate the percentage output energy ratio of bifacial photovoltaic (PV) modules compared to monofacial ones of equal area operating under the same conditions. The operating conditions involve latitude position, albedo, season, and PV bifaciality. The results demonstrate that bifacial installations can produce monthly, seasonal, and yearly energy gains ranging between 8% and 35% compared to monofacial modules when both types are installed at the optimum installation angle for the particular latitude considered. The gain tends to show general increase with increasing latitude and albedo. Good agreement with published experimental results is observed.

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Title:

Modeling analysis of bifacial photovoltaic panels performance

Contributors:

Azooz, Aasim A. (author) / Ali, Zeyad T. (author)

Published in:

Journal of Renewable and Sustainable Energy ; 17 ; 10

Publication date:

2025-01-01

Size:

10 pages

ISSN:

DOI:

https://doi.org/10.1063/5.0233385

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

ARTICLES , Green Energy Conversion

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