Maximum Power Generation in Grid-Connected Photovoltaic System using WOA based Embedded Controller
B Jegajothi C yaashuwanth S Sudhakar
A Photovoltaic (PV) cells are generally considered as a significant and striking renewable energy resource. In this document, a Whale Optimization Algorithm (WOA) is designed to congregate the maximum power from PV with the help of embedded regulator. Here, the WOA is a character-stimulated meta-heuristic optimization algorithm, which is stimulated by the bubble-net hunting policy of humpback whales. The uniqueness of designed procedure is to obtain the maximum power from PV array through the alternative solar irradiance and temperature. In this progression, the DC-DC boost converter is employed to develop the presentation of consequences through maintaining the switching pulses. Here, the signals are engendered by means of designed WOA related embedded regulator in this switching control. Thereafter, the voltage source inverter (VSI) is bounded by means of grid associated PV system. The enhancement of designed regulator is taking place by the Xilinx System Generator (XSG) field and legalizes the designed method. Moreover, the switching formats are examined for the PV based DC-DC boost converter. This designed structural design is usually taking place in the MATLAB/Simulink platform which is used to discover the significant features of PV system. At last, the presentation of the designed regulator is estimated and contrasted by the help of base and Jaya algorithm representation
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