Power Systems Based Projects

By: Engineer's Planet

This post aims to bridge the gap between theoretical knowledge and practical application by presenting a curated selection of projects aligned with IEEE standards. With a focus on power systems, these projects offer EEE students a unique opportunity to explore real-world challenges and innovative solutions. Each project is accompanied by abstracts and base papers, providing a solid foundation for academic exploration and research in the exciting domain of power systems engineering.

This project utilizes an Electric Spring device to stabilize voltage, enhance power quality, and correct power factor in smart grids, ensuring efficient and reliable electrical energy distribution.

1. Electric Spring for Power Stability and Correction

This project designs efficient control methods for switching regulators to optimize voltage regulation, improve dynamic response, and enhance overall performance in fuel-cell-based power systems.

2. Control Strategy for Switching Regulators in Fuel-Cell Applications

This project enhances power quality by optimally placing a Unified Power Quality Conditioner (UPQC) in the distribution system to mitigate voltage sag, swell, and harmonics effectively.

3. Power Quality Improvement Using UPQC in Distribution Systems

This project proposes a reliable and highly efficient inverter configuration using a cascaded multilevel design to improve power conversion, reduce harmonics, and enhance performance in photovoltaic (PV) systems.

4. Efficient Cascaded Multilevel Inverter for PV Systems

This project develops a three-phase parallel loaded resonant converter that minimizes ripple current, ensuring efficient, stable, and long-lasting performance in high-power LED lighting applications.

5. Reduced Ripple Current Resonant Converter for LED Lighting

This project designs a bridgeless single-stage power conversion battery charger to improve efficiency, reduce losses, and provide compact, reliable charging solutions for light electric vehicles (LEVs).

6. Bridgeless High-Efficiency Battery Charger for LEVs

In conclusion, power systems-based projects play a crucial role in advancing energy efficiency, reliability, and sustainability. They offer practical solutions to modern electrical challenges while fostering innovation and technical skills in students and professionals, ultimately contributing to the development of smarter, more resilient, and eco-friendly power infrastructure.