Date of Award

August 2024

Degree Type

Thesis

Degree Name

Master of Science

Department

Engineering

First Advisor

Robert Cuzner

Committee Members

Chanyeop Park, Feng Guo, Benjamin Church

Abstract

In the pursuit of enhancing power systems efficiency, reliability, and sustainability, the establishmentof advanced research laboratories plays a pivotal role. This thesis dives into the development and integration of a cutting-edge power laboratory aimed at fostering innovation across three key domains: Electromagnetic Interference (EMI) analysis, Microgrid studies, and Energy Storage exploration. The first section focuses on the creation of an EMI laboratory tailored for the comprehensive evaluation of both radiated and conducted emissions. EMI poses significant challenges in modern electronic systems, necessitating meticulous analysis and mitigation strategies. By meticulously designing and equipping an EMI lab, researchers can gain insights into the electromagnetic compatibility of devices, ensuring compliance with stringent regulatory standards and enhancing overall system performance. The second segment highlights the establishment of a microgrid laboratory featuring a two-bus system. Microgrids, characterized by their decentralized and resilient nature, are pivotal in shaping the future of power distribution. Through the emulation of real-world scenarios, this lab enables researchers to explore the dynamic interactions between distributed energy resources, load demands, and grid operations. Such studies are instrumental in optimizing microgrid configurations, enhancing grid stability, and facilitating seamless integration of renewable energy sources. The last section discusses the integration of an energy storage system within the laboratory framework. Energy storage technologies play a critical role in addressing intermittency issues associated with renewable energy sources and enhancing grid flexibility. By deploying diverse energy storage solutions and evaluating their performance under varying conditions, researchers can uncover novel strategies for grid optimization, demand response management, and peak shaving. Collectively, the establishment of this integrated power laboratory underscores our commitment to advancing research in key areas of power engineering. By providing state-of-the-art facilities and fostering interdisciplinary collaboration, we aim to address pressing challenges, drive technological innovation, and pave the way for a sustainable energy future.

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