A Multi-Input Single-Ended Primary Inductor Converter (SEPIC): Performance Analysis for Hybrid Sources of Renewable Energy
Publish place: majlesi Journal of Electrical Engineering، Vol: 18، Issue: 1
Publish Year: 1403
نوع سند: مقاله ژورنالی
زبان: English
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شناسه ملی سند علمی:
JR_MJEE-18-1_014
تاریخ نمایه سازی: 9 اردیبهشت 1403
Abstract:
This paper focuses on the hybridization of two renewable energy sources (i.e., PV Panel and Bi-Cycle Dynamo) and the use of a Multi-Input SEPIC converter for highly efficient output from them. This paper has also presented the comparative assessment between the conventional Single-Input Single Output SEPIC (Single Ended Primary Inductor Converter) and Multi-Input SEPIC converter based on performance analysis. Both the Multi-Input SEPIC that is designed in this literature powered by the hybrid architecture of power sources and the Single-Input SEPIC are run in boost mode. The project is mainly developed with a view to facilitating the isolated rural islands and regions detached from the on-grid connections. The findings and assessments of this study are corroborated by the MATLAB/Simulink simulation results and optimally designed prototype built for miniature applications. The Multi-Input SEPIC topology has been developed in such a way that it is functional with an input voltage of ۱۲.۱V exactly and gives an output voltage of DC ۵۳V approximately at the output terminal. To get the maximum voltage at the output from the designed circuit, the duty cycle of the converter recorded is almost ۸۱.۴۹%. The renewable energy sources (RES) that are used to build the prototype are Photovoltaic Panel and Bi-Cycle Dynamo. Due to the limitations of the PV Panels to generate power during the night and gloomy weather, the Bi-Cycle dynamo works as the backup power source. In performing the hardware and software analyses, various intermittent situations, solar irradiation, seasonal change, day-night phase, and other parameters are taken into consideration on the input terminal of the converter. An efficiency of ۹۱.۶% is obtained from the proposed hardware field-test analysis.
Keywords:
SEPIC Converter , Hybrid Renewable Energy Sources , Voltage Optimization , Rural Insular Area , Bi-cycle Dynamo , Solar Energy , Off-Grid Solution
Authors
Nayeem Ahmed
Faculty of Electrical and Computer Engineering, Dresden, Dresden, Saxony, Germany.
Afrid Araf
Department of Science and Engineering, Curtin University, Perth, Western Australia, Australia
Sheikh Rakeen
Department of Electrical and Electronics Engineering, BRAC University, Dhaka, Bangladesh
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