Design, Simulation and Analysis Od Dual 12/2kva Hybrid Inverter to Use at Four Labs at Engineering Complex

Student: Musa Muhammad Kabir (Project, 2025)
Department of Electrical /Electronics Engineering
Hussaini Adamu Federal Polytechnic, Kazaure, Jigawa State

Abstract

ABSTRACT This project focuses on the design, simulation, and analysis of a dual 12/2 KVA hybrid inverter intended to provide reliable and efficient power supply to four laboratories within an Engineering Complex. The inverter system integrates renewable energy sources with conventional grid supply, ensuring continuous power availability during outages while minimizing dependence on the utility grid. The design phase involves the selection of appropriate power electronic components, control strategies, and energy storage systems to optimize performance, efficiency, and stability. Simulation studies are conducted using advanced software tools to model system behavior under varying load conditions, energy sources, and fault scenarios. Key performance metrics, including total harmonic distortion (THD), voltage regulation, and energy conversion efficiency, are analyzed to validate the system’s operational reliability. The outcomes demonstrate that the hybrid inverter can efficiently support the power needs of the four laboratories, enhance energy security, and provide a cost-effective solution for integrating renewable energy into the campus power infrastructure. The project offers a practical framework for the deployment of hybrid inverter systems in educational and research institutions.

Keywords
design simulation analysis od dual 12/2kva hybrid inverter
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