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个人简介
I am a dedicated Ph.D. candidate in Electrical Engineering focusing on microgrid control systems, grid resilience, and distributed energy resource (DER) systems. My research is centered around developing innovative solutions to enhance future energy grids' efficiency, stability, and reliability.
Throughout my academic journey, I have been fascinated by the intersection of electrical engineering and sustainable energy systems. My goal is to contribute to the advancement of renewable energy integration, enabling a smoother transition to a more sustainable and resilient power infrastructure.
In particular, my research focuses on microgrid control systems. Microgrids are self-contained power systems that can operate independently or connected to the main grid. They play a crucial role in enabling the integration of DERs, such as solar photovoltaics, wind turbines, energy storage systems, and electric vehicles. My work involves developing advanced control algorithms and optimization techniques to ensure seamless integration, reliable operation, and optimal utilization of DERs within microgrid systems.
Another key aspect of my research is grid resilience. I am deeply interested in investigating strategies to enhance the resilience of power grids against various disturbances, including natural disasters, cyber-attacks, and equipment failures. By leveraging advanced control techniques, fault detection and isolation algorithms, and robust optimization methods, I aim to develop resilient microgrid systems capable of rapid self-healing and efficient restoration.
Furthermore, I am actively engaged in studying distributed energy resource systems. DERs are decentralized energy sources that can generate, store, and manage energy at the local level. These systems offer significant potential for improving grid efficiency and reliability while reducing greenhouse gas emissions. My research explores the integration and control of DERs, aiming to optimize their operation, enhance grid stability, and enable effective energy management in both grid-connected and islanded scenarios.
By combining theoretical analysis, simulation studies, and experimental validation, I strive to contribute practical and implementable solutions to the challenges faced by modern power systems. I am committed to collaborating with industry partners, fellow researchers, and policymakers to translate my findings into real-world applications, fostering the transition to a sustainable and resilient energy future.
研究兴趣
论文共 16 篇作者统计合作学者相似作者
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crossref(2023)
Journal of Modern Power Systems and Clean Energyno. 1 (2023): 3-16
Mahtab Murshed,Manohar Chamana,Konrad Erich Kork Schmitt,Rabindra Bhatta, Olatunji Adeyanju,Stephen Bayne
ENERGIESno. 15 (2023): 5778-5778
decision support systemsno. 2 (2021): 14-18
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2021 Resilience Week (RWS)pp.1-9, (2021)
european conference on cognitive ergonomicspp.819-826, (2021)
2019 1st International Conference on Advances in Science, Engineering and Robotics Technology (ICASERT)pp.1-6, (2019)
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