Data-Driven Frequency Dynamic Unit Commitment for Island Systems with High RES Penetration
The replacement of directly connected synchronous generators with power electronics interfaced generation has led to a decrease in system’s inertia posing a significant challenge on frequency dynamics. In isolated systems with reduced inertia the role of storage becomes crucial. Indicative abstracts from the CIGRE WG C6.43 and results from studies in island systems will be overviewed. Moreover, predefined limits for renewable penetration and primary reserves are frequently set for dynamic security purposes. This approach might not ensure dynamic security or can prove conservative in certain conditions. Furthermore, these approaches rarely consider the capabilities of inverter based renewable generation to provide frequency services. In this presentation, a data driven approach, based on optimal classification trees is described to extract, from a detailed dynamic model of the system, the constraints for a frequency dynamic unit commitment formulation. Hence, both dynamic security and optimal exploitation of renewable and conventional units for power production and frequency support can be achieved. The advantages of the proposed method compared to conventional and state of the art approaches in frequency security are validated through dynamic simulations on a realistic model of Rhodes island. Its economic performance, computational overhead and modelling complexity is compared to alternative approaches.
Despite the benefits however, system operators may be reluctant to embrace AI solutions, as the models may be challenging to interpret, perceived as black boxes. Additional concerns may arise regarding the adequacy of testing under realistic conditions. In the presentation these concerns are addressed by introducing a digital twin designed for the realistic testing of dynamic security assessment applications in the system of Rhodes. The developed digital twin incorporates two options for the virtual model of the island: an interface with a commercial RMS/EMT software and a real time simulator together with an industrial under frequency load shedding protection equipment. The settings of the actual field devices on the island are tested through a hardware in the loop interface.
Date and Time
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Registration
- Date: 20 Nov 2024
- Time: 10:00 AM to 11:00 AM
- All times are (UTC-08:00) Pacific Time (US & Canada)
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- Co-sponsored by University of California, Riverside
- Starts 09 November 2024 12:00 PM
- Ends 20 November 2024 11:00 AM
- All times are (UTC-08:00) Pacific Time (US & Canada)
- No Admission Charge
Speakers
Dr. Nikolas Hatziargyriou of National Technical University of Athens
Professor Nikolas Hatziargyriou
Biography:
Nikolaos Hatziargyriou received the Diploma in Electrical and Mechanical Engineering from the National Technical University of Athens in 1976 and the MSC and PhD degrees from UMIST, Manchester, UK in 1979 and 1982, respectively. Since 1984, he has been with the Power Division of the Electrical and Computer Engineering Department of NTUA, and since 1995, he has been a full professor in Power Systems. Since April 2015, he has been Chairman and CEO of the Hellenic Distribution Network Operator (DEDDIE). From February 2007 to September 2012, he was Deputy CEO of the Public Power Corporation (PPC) of Greece, responsible for Transmission and Distribution Networks, island DNO, and the Center of Testing, Research, and Prototyping.
He is a Fellow Member of IEEE, past Chair of the Power System Dynamic Performance Committee, Honorary member of CIGRE, and past Chair of CIGRE SC C6 “Distribution Systems and Distributed Generation.” He is co-chair of the EU Technology and Innovation Platform on Smart Networks for Energy Transition. He is a member of the Energy Committee of the Athens Academy of Science.
He has participated in more than 60 R&DD Projects funded by the EC and the industry and has coordinated among others, "CARE", "MORE CARE", "MERGE", “Microgrids” and “More Microgrids”. He is the editor-in-chief of the IEEE Transactions on Power Systems and a member of the Editorial Board of IEEE Transactions on Sustainable Development and the IEEE Power and Energy magazine. He is the author of the book “Microgrids: Architectures and Control” and of more than 200 journal publications and 500 conference proceedings papers. He is included in the 2016 Thomson Reuters list of the top 1% most cited researchers.
Address:Athen, Greece
Agenda
- Welcome and Speaker Introduction – 3 minutes
- Presentation – Approximately 45 minutes
- Q&A Session – Approximately 10 minutes
- Future Webinar Announcement and Closing Remarks – 2 minutes