Power Systems covers a diverse set of topics, ranging from electricity generation to transmission and distribution including demand side management. This research field addresses many of the current challenges ranging from climate change to depletion of limited resources, ultimately aiming for a sustainable energy future. Power systems research enables a future with vast amounts of renewable generation including wind, photovoltaic and other emerging technologies. Modern power systems have undergone major transformations in recent years following the quest for their decarbonisation, decentralisation, and digitisation. Through a collaborative approach, the Power Systems Group performs cutting edge research within Royal Holloway University of London as well as with external contacts from industry and academia.
Research
Driven by climate change and limitations on the availability of fossil fuels, there have been major developments in research on power systems. New technologies have been developed for the generation, transmission and distribution systems. These include renewable generation such as wind and photovoltaic generators, voltage source converters for ACDC power conversion, smart metering and demand side management. Research in power systems concentrates on “keeping the lights on”, maintaining the system frequency around 50Hz, reducing CO2 emissions and the use of fossil fuels and creating a sustainable future in the way we use and generate electricity.
Group members
Academics
Dr Stefanie Kuenzel | Group leader, Power Systems, Renewables, HVDC, Smart Meters |
Dr Onyema Nduka |
Decarbonised Electricity Network Modelling, Operations and Control; Power Quality and Massive Data Analytics; Smart Grid; Active Distribution Networks; Microgrids |
Research Students
PhD student | |
Amir Adib | PhD student |
Past Power Systems group graduates & research associates
PhD student | |
MSc by Research | |
Ruth Blackwell | PDRA |
MSc by Research |
Selected publications
Books
Simulation of Power System with Renewables
Journals
[1] X. -Y. Zhang, J. -R. Córdoba-Pachón, P. Guo, C. Watkins, and S. Kuenzel, "Privacy-Preserving Federated Learning for Value-Added Service Model in Advanced Metering Infrastructure", IEEE Transactions on Computational Social Systems, vol. 11, no. 1, pp. 117-131, Feb. 2024.
[2] Nduka O., “Upper control limit calculation for bad data detection in spatiotemporal power quality massive data and its application to harmonic load flow study”, International Journal of Electrical Power & Energy Systems. 2024 Jul 1;158:109938.
[3] D. Buil-Gil, S. Kemp, S. Kuenzel, L. Coventry, S. Zakhary, D. Tilley, and J. Nicholson, "The digital harms of smart home devices: A systematic literature review", Computers in Human Behavior, vol. 145, Aug. 2023, Art no. 107770.
[4] Zhang, XY., Kuenzel, S., Guo, P. et al., “A hybrid data-driven online solar energy disaggregation system from the grid supply point”, Complex Intell. Syst. 9, 3695–3716, 2023.
[5] H. -X. Gao, S. Kuenzel, and X. -Y. Zhang, "A Hybrid ConvLSTM-Based Anomaly Detection Approach for Combating Energy Theft", IEEE Transactions on Instrumentation and Measurement, vol. 71, pp. 1-10, 2022, Art no. 2517110.
[6] Yu Y, Nduka OS, Nazir FU, Pal BC, “A Three-Stage Stochastic Framework for Smart Electric Vehicle Charging”, IEEE Access. 2022 Dec 28;11:655-66.
[7] X. Zhang, C. Watkins, C. Cheong Took, and S. Kuenzel, "Privacy Boundary Determination of Smart Meter Data Using an Artificial Intelligence Adversary", IEEE Transactions on Electrical Energy Systems, Jul. 14, 2021.
[8] Yu Y, Nduka OS, Pal BC, “Smart control of an electric vehicle for ancillary service in DC microgrid”, IEEE Access. 2020 Oct 28;8:197222-35.
[9] Nduka OS, Ahmadi AR, “Data‐driven robust extended computer‐aided harmonic power flow analysis”, IET Generation, Transmission & Distribution. 2020 Oct;14(20):4398-409.
[10] Nduka OS, Yu Y, Pal BC, Okafor EN, “A robust augmented nodal analysis approach to distribution network solution”, IEEE Transactions on Smart Grid. 2019 Oct 21;11(3):2140-50.
Call for special issue
As guest editors Dr. Kuenzel and Dr. Zhang currently invite contributions to the Special Issue of "AI Facilitated Cyber-Physical Energy Systems—Planning, Operation, and Markets"
Opportunities
To apply for an MSc by Research or PhD within the Power Systems Group, please email the Head of Group, Dr Kuenzel at stefanie.kuenzel@royalholloway.ac.uk with details about your research interests as well as a summary of your academic qualifications (a brief one to two page CV will be useful) and if you are self-funded or require funding. Current funding opportunities for PhDs in the department are advertised under PhD research opportunities.
After you have liaised with Dr Kuenzel, you will be able to register an account on Royal Holloway Direct to formally submit your application. More details on the application process can be found here.
For more information on postdoctoral, fellowship and visiting opportunities, please email the Head of Group, Dr Kuenzel at stefanie.kuenzel@royalholloway.ac.uk with your CV and a brief statement of your research interest.
Information about the MSc Smart Power Systems can be found here, if you are looking for a taught degree.
Call for special issue
As guest editors Dr. Kuenzel and Dr. Zhang currently invite contributions to the Special Issue of "AI Facilitated Cyber-Physical Energy Systems—Planning, Operation, and Markets"