A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions

This paper proposes a generalized analytical approach to model the photovoltaic (PV) arrays under partial shading conditions (PSC). The proposed method is simple: it requires only the standard test condition (STC) parameters of the PV modules and the irradiance level imposed on each module. By using...

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Main Authors:	Kermadi, Mostefa, Chin, Vun Jack, Mekhilef, Saad, Salam, Zainal
Format:	Article
Published:	Elsevier 2020
Subjects:	T Technology (General) TK Electrical engineering. Electronics Nuclear engineering
Online Access:	http://eprints.um.edu.my/36401/
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Institution:	Universiti Malaya

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spelling	my.um.eprints.364012023-11-30T05:28:24Z http://eprints.um.edu.my/36401/ A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions Kermadi, Mostefa Chin, Vun Jack Mekhilef, Saad Salam, Zainal T Technology (General) TK Electrical engineering. Electronics Nuclear engineering This paper proposes a generalized analytical approach to model the photovoltaic (PV) arrays under partial shading conditions (PSC). The proposed method is simple: it requires only the standard test condition (STC) parameters of the PV modules and the irradiance level imposed on each module. By using this information, the PV and I-V curves of shaded PV arrays are obtained by simple steps. Firstly, the current-voltage (I-V) curves for all assembled submodules receiving the same level of irradiance are generated using the two-diode model. The parameters of the latter are computed using a fast parameter extraction method. Secondly, the I-V curve of each shaded string is computed using the computed I-V curves of its submodules. In the last step, the resulted I-V curve of the array is obtained by summation of all I-V strings curves. The proposed method is simple, fast, and can be coded in any development platform. Besides, the prediction accuracy is enhanced by incorporating the real effect of bypass and blocking diodes in the model. Furthermore, the proposed method could be generalized for any number of series/parallel connections in a shaded PV array. The method can be useful to generate critical shading patterns for maximum power point tracking (MPPT) algorithms evaluation. It can also be used as a tool to obtain instant shading patterns in PV array simulators. Elsevier 2020-09 Article PeerReviewed Kermadi, Mostefa and Chin, Vun Jack and Mekhilef, Saad and Salam, Zainal (2020) A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions. Solar Energy, 208. pp. 753-765. ISSN 0038-092X, DOI https://doi.org/10.1016/j.solener.2020.07.077 <https://doi.org/10.1016/j.solener.2020.07.077>. 10.1016/j.solener.2020.07.077
institution	Universiti Malaya
building	UM Library
collection	Institutional Repository
continent	Asia
country	Malaysia
content_provider	Universiti Malaya
content_source	UM Research Repository
url_provider	http://eprints.um.edu.my/
topic	T Technology (General) TK Electrical engineering. Electronics Nuclear engineering
spellingShingle	T Technology (General) TK Electrical engineering. Electronics Nuclear engineering Kermadi, Mostefa Chin, Vun Jack Mekhilef, Saad Salam, Zainal A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
description	This paper proposes a generalized analytical approach to model the photovoltaic (PV) arrays under partial shading conditions (PSC). The proposed method is simple: it requires only the standard test condition (STC) parameters of the PV modules and the irradiance level imposed on each module. By using this information, the PV and I-V curves of shaded PV arrays are obtained by simple steps. Firstly, the current-voltage (I-V) curves for all assembled submodules receiving the same level of irradiance are generated using the two-diode model. The parameters of the latter are computed using a fast parameter extraction method. Secondly, the I-V curve of each shaded string is computed using the computed I-V curves of its submodules. In the last step, the resulted I-V curve of the array is obtained by summation of all I-V strings curves. The proposed method is simple, fast, and can be coded in any development platform. Besides, the prediction accuracy is enhanced by incorporating the real effect of bypass and blocking diodes in the model. Furthermore, the proposed method could be generalized for any number of series/parallel connections in a shaded PV array. The method can be useful to generate critical shading patterns for maximum power point tracking (MPPT) algorithms evaluation. It can also be used as a tool to obtain instant shading patterns in PV array simulators.
format	Article
author	Kermadi, Mostefa Chin, Vun Jack Mekhilef, Saad Salam, Zainal
author_facet	Kermadi, Mostefa Chin, Vun Jack Mekhilef, Saad Salam, Zainal
author_sort	Kermadi, Mostefa
title	A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
title_short	A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
title_full	A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
title_fullStr	A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
title_full_unstemmed	A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions
title_sort	fast and accurate generalized analytical approach for pv arrays modeling under partial shading conditions
publisher	Elsevier
publishDate	2020
url	http://eprints.um.edu.my/36401/
_version_	1784511817377120256

A fast and accurate generalized analytical approach for PV arrays modeling under partial shading conditions

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