Abstract
Partial shading causes mismatch losses in the solar PV system. In the PV array, the power output from the healthy PV modules is gone in vain due to the mismatch losses. The PV array construction with the high resistivity to the mismatch loss generation is the progressing research work in the research field. In this work, a new kind of array configuration scheme is framed for the PV system for overcoming the effect of partial shading. The proposed array configuration has a high resistivity to the mismatch loss generation over the other conventional array configuration methods. The array configuration is framed in a pattern that is similar to the spiral step pattern. Each row of the PV array is constructed with the PV modules from each row of the conventional Total Cross Tied configuration with the optimized distance. This row construction allows the system to uniformly disperses the partial shading over the PV array. The simulation analysis is carried out by applying various shading patterns in MATLAB/SimulinkⓇ. The performance of the proposed array configuration is also analyzed in the experimental setup and the results were presented.
Highlights
Photovoltaic (PV) system accelerates its development in the global energy market in recent years because of its ecofriendly characteristics, reliability, and renewability Population growth and the depletion of fossil fuels paves the way for utilizing non-conventional energy resources for the world’s energy demand
A new kind of PV array configuration scheme called spiral pattern configuration has been proposed for enhancing the performance of PV systems under partial shading conditions
A proper mathematical formulation is expressed based on the number of rows and number of columns and it can be applied to any size of the PV system
Summary
Photovoltaic (PV) system accelerates its development in the global energy market in recent years because of its ecofriendly characteristics, reliability, and renewability Population growth and the depletion of fossil fuels paves the way for utilizing non-conventional energy resources for the world’s energy demand. The feasibility of solar energy attracts the energy market for utilizing it. The solar photovoltaic (PV) system is firstly introduced in 1954 by the Bells Laboratory in the United States. The first PV cell is fabricated with the impurities of silicon which directly converts the sunlight into electricity by the photovoltaic effect. The efficiency of the first PV cell is around 4% that is developed to 24% in recent years by various researches [1-8]. There are various factors such as partial shading, hotspots, diode failure, etc., were affecting the efficiency of the solar
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