Characteristic Study of Solar Photovoltaic Array under Different Partial Shading Conditions

The electrical power generation from solar photo voltaic arrays increases by reducing partial shading effect due to the deposition of dust in modules, shadow of nearby buildings, cloud coverage leads to mismatching power losses. This paper gives the detailed analysis of modeling, simulation and performance analysis of different 4x4 size PV array topologies under different irradiance levels and to extract output power of panels maximum by reducing the mismatching power losses. For this analysis, a comparative study of six PV array topologies are Series, Parallel, Series-Parallel, Total-Cross-Tied, Bridge Linked and Honey-Comb are considered under various shading conditions such as one module shading, one string shading, zigzag type partial shading and total PV array partially shaded cases. The performance of above six topologies are compare with mismatching power losses and fill-factor. For designing and simulation of different PV array configurations/topologies in MaTLab/Simulink, the LG Electronics LG215P1W PV module parameters are used in all PV modules.

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Feasibility analysis of solar photovoltaic array configurations under partial shading conditions

2015 Annual IEEE India Conference (INDICON) ◽

10.1109/indicon.2015.7443701 ◽

2015 ◽

Cited By ~ 4

Author(s):

Shahida Khatoon ◽

Ibraheem ◽

Mohd Faisal Jalil

Keyword(s):

Feasibility Analysis ◽

Solar Photovoltaic ◽

Partial Shading ◽

Photovoltaic Array

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Analyse the Effects of Partial Shading Conditions on Solar Photovoltaic Panels

International Journal for Research in Applied Science and Engineering Technology ◽

10.22214/ijraset.2021.35972 ◽

2021 ◽

Vol 9 (VI) ◽

pp. 4167-4172

Author(s):

Prateek Singh

Keyword(s):

Reverse Bias ◽

The Other ◽

Solar Photovoltaic ◽

Partial Shading ◽

Photovoltaic Panels ◽

Photovoltaic Array ◽

Pv Cell ◽

Temperature Environment ◽

In Series ◽

A Current

In a solar photovoltaic array, the shadow may cover its PV cells. In partial shading conditions, the PV characteristic gets more complicated with multiple numbers of peaks. The aim of this model is to analyses the different partial shading situations and also their effects on the operation. This is done by simulation in MATLAB/Simulink2015a software. In this, three PV panels of 250 watt are connected in series for analysing the output. Different irradiances with specified temperature environment are provided to the panel to form the I-V and P-V curve. Due to shading, the output of the panels gets decreased if there is increment in the shaded portion and due to this in a PV strings there will be a current mismatch while in the parallel strings there will be a voltage mismatch. To stop the damage from the other side i.e., from reverse bias, we use bypass diodes. These diodes are placed parallel to each PV cell so that voltage does not become negative and we obtain a good amount of output in case of partial shading also.

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Analysis of Solar Photovoltaic Array Interconnection Schemes Working Under Partial Shading Conditions

2019 1st International Conference on Sustainable Renewable Energy Systems and Applications (ICSRESA) ◽

10.1109/icsresa49121.2019.9182421 ◽

2019 ◽

Author(s):

Ben Si Ali Nadia ◽

Merah Ahmed ◽

Benalia Nadia ◽

Zerzouri Nora

Keyword(s):

Solar Photovoltaic ◽

Partial Shading ◽

Photovoltaic Array

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A Comprehensive Review and Analysis of Solar Photovoltaic Array Configurations under Partial Shaded Conditions

International Journal of Photoenergy ◽

10.1155/2012/120214 ◽

2012 ◽

Vol 2012 ◽

pp. 1-16 ◽

Cited By ~ 93

Author(s):

R. Ramaprabha ◽

B. L. Mathur

Keyword(s):

Computational Effort ◽

Energy Output ◽

Solar Photovoltaic ◽

Power Losses ◽

Shunt Resistance ◽

Partial Shading ◽

Comprehensive Review ◽

Photovoltaic Array ◽

Proposed Model ◽

Sufficient Degree

The aim of this paper is to investigate the effects of partial shading on energy output of different Solar Photovoltaic Array (SPVA) configurations and to mitigate the losses faced in Solar Photovoltaic (SPV) systems by incorporating bypass diodes. Owing to the practical difficulty of conducting experiments on varied array sizes, a generalized MATLAB M-code has been developed for any required array size, configuration, shading patterns, and number of bypass diodes. The proposed model which also includes the insolation-dependent shunt resistance can provide sufficient degree of precision without increasing the computational effort. All the configurations have been analyzed and comparative study is made for different random shading patterns to determine the configuration less susceptible to power losses under partial shading. Inferences have been drawn by testing several shading scenarios.

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