2023
DOI: 10.3390/en16134910
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Disperse Partial Shading Effect of Photovoltaic Array by Means of the Modified Complementary SuDoKu Puzzle Topology

Abstract: This paper presents a novel modified Complementary SuDoKu puzzle (MC-SDKP) topology for the static reconfiguration of photovoltaic (PV) arrays. It was developed with the aim of enhancing the power output of a PV array which is exposed to partially shaded conditions (PSCs). To disperse patterns of both center shading and corner shading, the MC-SDKP technique modified and combined the Optimal SDKP and the Complementary SDKP (C-SDKP) topologies. An 8 × 8 PV array configured with the MC-SDKP topology was exposed t… Show more

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Cited by 6 publications
(1 citation statement)
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“…Thus, the total or partial shading can be produced by the 2 shadows of passing clouds, dust, trees, buildings (or nearby buildings), and by part of the system itself (self-shading) [8,33]. The partial shading directly affects the performance of PV solar arrays [34], causing significant power losses and can even lead to hot spot formation and module damage [35]. The PV systems use bypass diodes to prevent hotspot formation and heating and minimize the energy deficiency because of partial shading [39,45] and blocking diodes to restrict the reverse flow of electricity [39].…”
Section: Introductionmentioning
confidence: 99%
“…Thus, the total or partial shading can be produced by the 2 shadows of passing clouds, dust, trees, buildings (or nearby buildings), and by part of the system itself (self-shading) [8,33]. The partial shading directly affects the performance of PV solar arrays [34], causing significant power losses and can even lead to hot spot formation and module damage [35]. The PV systems use bypass diodes to prevent hotspot formation and heating and minimize the energy deficiency because of partial shading [39,45] and blocking diodes to restrict the reverse flow of electricity [39].…”
Section: Introductionmentioning
confidence: 99%