L-Shape Propagated Array Configuration With Dynamic Reconfiguration Algorithm for Enhancing Energy Conversion Rate of Partial Shaded Photovoltaic Systems

Srinivasan, A.; Devakirubakaran, S.; Sundaram, B. Meenakshi; Balachandran, Praveen Kumar; Cherukuri, Santhan Kumar; Winston, D. Prince; Babu, Thanikanti Sudhakar; Alhelou, Hassan Haes

doi:10.1109/access.2021.3094736

Cited by 48 publications

(9 citation statements)

References 18 publications

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“…The technique proposed in that paper was performed on a small-scale grid-connected PV system of 1.65 kWp, which shows the results of the feasibility of the approach and also the ideal power delivery under PSCs in the PV array. In [23], the increase in energy conversion for a 4 × 4 PV array under PSCs has been performed by reconfiguration of shaded arrays using a novel dynamic-based reconfiguration method called the L-shaped propagated array configuration. In [24], an analytical procedure for tracking the real MPP under Uniform Irradiance Condition (UIC) and PSC has been introduced.…”

Section: • Utilizing Multi-tracker Converters • Utilizing Micro Conve...mentioning

confidence: 99%

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction: A state-of-the-art review and new solution method

Rezazadeh

Moradzadeh

Pourhossein

et al. 2022

Energy Conversion and Management

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Section: • Utilizing Multi-tracker Converters • Utilizing Micro Conve...mentioning

confidence: 99%

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction: A state-of-the-art review and new solution method

Rezazadeh

Moradzadeh

Pourhossein

et al. 2022

Energy Conversion and Management

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“…However, to achieve the production of the switching matrix, it follows an inconsistent decision table, which is one of the main problems of this method (Wang and Hsu 2011). In a valuable study (Srinivasan et al 2021), increasing the energy conversion under PSCs in a 4 × 4 PV array has been accomplished by introducing a new reconfiguration approach called the L-shaped propagated array configuration procedure with a novel dynamic reconfiguration algorithm. The use of clustering-based artificial neural networks (ANNs) has been published as an ideal solution to reconfiguration PV arrays and minimize power losses based on the dynamic structure (Monteiro et al 2020).…”

Section: Related Workmentioning

confidence: 99%

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction via knight's tour technique

Rezazadeh

Moradzadeh

Pourhossein

et al. 2022

J Ambient Intell Human Comput

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This paper introduces a novel reconfiguration technique, called Knight's tour to extract maximum power from photovoltaic (PV) arrays in partial shading conditions. The Knight's tour reconfigures the PV arrays based on the Knight's movements on the chessboard. The proposed procedure achieves the maximum power values by spreading partial shadows in all rows. Knight's tour can be applied to a variety of PV arrays in different dimensions and sizes. Accordingly, the Knight's tour procedure is applied to four cases in square and rectangular shapes with different dimensions and various shading conditions in each case. To make a direct comparison and present the effectiveness of the suggested procedure, the total-cross-tied connection model and conventional methods such as SuDoKu, optimal SuDoKu, improved SuDoKu, and Skyscraper puzzle are also implemented to the introduced cases. The results of the maximum power point tracking in each case are evaluated by indicators such as global maximum power point (GMPP), fill factor, mismatch loss, and efficiency. Finally, evaluations emphasize the ability and effectiveness of the Knight's tour solution compared to other methods by achieving the GMPP values such as $$74.7\,{I}_{m}{V}_{m}$$ 74.7 I m V m , $$66.6\,{I}_{m}{V}_{m}$$ 66.6 I m V m , $$46.8\,{I}_{m}{V}_{m}$$ 46.8 I m V m , and $$109.8\,{I}_{m}{V}_{m}$$ 109.8 I m V m for cases 1 to 4, respectively. The Knight's tour method can be utilized as an efficient tool for the PV arrays in real-world systems that suffer from partial shading.

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“…Ref. [25] proposes dynamic reconfiguration, which propagates in an L shape to reconfigure the array structure. Various static and dynamic reconfiguration solutions are investigated in [26] to reduce power losses induced by partial shadow.…”

Section: Configuration and Reconfiguration Techniquesmentioning

confidence: 99%

Non-Symmetrical (NS) Reconfiguration Techniques to Enhance Power Generation Capability of Solar PV System

et al. 2022

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At present, primary power generation depends on non-renewable energy resources, which will become extinct. Solar is the best option in renewable energy sources to achieve clean and green power extraction. Solar PV transforms light energy into electrical energy. However, the output power of solar PV changes with solar insolation. It is also affected by environmental factors and the shading effect. One of the key factors that can reduce the PV system output power is partial shading condition (PSC). The reduction in power output not only depends on shaded region but also depends on pattern of shading and physical position of shaded modules in the array. Due to PSCs, mismatch losses are induced between the shaded modules which can cause several peaks in the output power–voltage (P-V) characteristic. This article describes the non-symmetrical reconfiguration technique and compares it with the primary total cross tied connection. The performance of non-symmetrical reconfiguration techniques is evaluated and compared in terms of global maximum power (GMP), voltage and currents at GMP, open and short circuit voltage and currents, mismatch power loss (MPL), fill factor, efficiency, and number of local maximum power peaks (LMPPs) on a 9 × 9 PV array.

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L-Shape Propagated Array Configuration With Dynamic Reconfiguration Algorithm for Enhancing Energy Conversion Rate of Partial Shaded Photovoltaic Systems

Cited by 48 publications

References 18 publications

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction: A state-of-the-art review and new solution method

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction: A state-of-the-art review and new solution method

Photovoltaic array reconfiguration under partial shading conditions for maximum power extraction via knight's tour technique

Non-Symmetrical (NS) Reconfiguration Techniques to Enhance Power Generation Capability of Solar PV System

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