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Sustainable Engineering PhD scholar investigates ways to make electrical grids more resilient and secure
By Yasmine Iqbal
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As a Fulbright alumnus with an undergraduate degree in Petroleum Engineering, Mohamed Abaas 鈥19 MS, 鈥23 PhD spent his graduate academic career at 草榴社区 investigating ways to reengineer the electrical power grid. In the Sustainable Engineering program, he was able to draw on a team of experts in Engineering and related disciplines to envision a way that future power grids could be designed to be more adaptive and functional.
Most power grids have a centralized system with three components: electricity generators, transmission lines and distribution networks. When any part of that infrastructure is compromised by a weather event or cyberattack, major outages throughout a large service area can result.
In contrast, a microgrid is a smaller-scale, decentralized grid that can serve a smaller region. These microgrids can be linked through a network that allows them to share and trade power in times of need and surplus.
鈥淯sing a microgrid can make an area more resilient to outages,鈥 Dr. Abaas says. Microgrids can recover faster from outages because they have their own generators, such as solar panels. They can also store surplus power and trade or sell it to other microgrids in the network. 鈥淎dding financial incentives to manage power demands can make the networked microgrid model economically feasible and advantageous,鈥 he says.
Dr. Abaas鈥 research involved studying ways to improve the communication between microgrids by using artificial intelligence algorithms that would enable the grids to predict when a power outage might be imminent. He also investigated using blockchain technology to allow microgrids to buy and sell power across a network. He did this by building three microgrid lab simulations and measuring the impact of various scenarios. His research concluded that using AI that was trained on historical weather data was an effective way to make a networked microgrid more resilient. He also found that blockchain technology could make the process of trading energy more secure and economically viable.
Ross Lee, PhD, a professor of practice in Sustainable Engineering, who headed up Dr. Abaas鈥 advising committee, notes that this dissertation highlights the PhD program鈥檚 unique focus on fostering collaboration between experts from various disciplines.
鈥淭he program applies a whole systems perspective that includes social, technical, economic, environmental and political dimensions,鈥 says Dr. Lee, who helped to design the Sustainable Engineering PhD program, which launched in 2016. 鈥淚n Mohamed鈥檚 case, we called on world-class thought leaders beyond 草榴社区 to advise on key aspects of his work.鈥
鈥淭he infrastructure and regulatory environment would have to change significantly for networked microgrids to become feasible, but this research helped show what may be possible,鈥 says Dr. Abaas, who currently works as a sustainability specialist for a global manufacturing company. 鈥淭he future of energy production and distribution may not have a one-size-fits-all model.鈥
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