Improved observability in the power system: Real-time stability monitoring and control |
SweGRIDS research area | Flexible Power Systems |
SweGRIDS project code | FPS19 |
Project type | PhD |
Status | running |
Researcher | Sayyeda Umbereen (webpage) |
University | KTH (EPE) |
Project period | 2019-11-01 to 2023 |
Project supervisor | Mehrdad Ghandhari (webpage) |
Industrial sponsors | Svenska kraftnät, Vattenfall |
Project abstract
This project is linked with FPS20, having the same reference group and shared supervision.
Real time monitoring and control of rotor angle of generator is required to get clear indication regarding stability of power system. The first goal of this project is to perform a real-time rotor angle instability monitoring based on new developed algorithms such as Lyapunov exponent and also based on real-time measurements of the generator rotor angles, the stator voltages and currents as well as the field current. The second goal is to compare the measured rotor angle and field current with the conventional PMU-estimated quantities. The next step is to identify the critical generators for instability and thereby to apply a control action to stabilize the system and also to identify the coherent sets of generators involved in instability which might also be involved in different modes of electromechanical oscillations. Also we will identify and evaluate available PSS and their impact on power system damping. The last step is to explore if it is possible to perform the above aims only based on rotor angle measurements without using mathematical models describing the power system dynamics. After successful results, a similar study may be performed for short-term voltage instability.
Summary of work
2020. Performed literature review.
2020. Techniques that are related to rotor angle stability such as Lyapunov exponents is explored.
Event log
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Project reference-group
Robert Eriksson, SvK
Jonas Persson, Vattenfall
Urban Lundin, UU
Mehrdad Ghandhari, KTH
Publications by this researcher
See alternatively the researcher's full DiVA list of publications, with options for sorting.
Publications in journals and conferences usually will not show until a while after they are published.
Maximum Lyapunov Exponent Based Nearest Neighbor Algorithm For Real-Time Transient Stability Assessment
Sayyeda Umbereen Bano, Mehrdad Ghandhari, Robert Eriksson.
2024, Electric power systems research, vol. 234
A Comparative Analysis Of Techniques For Real-Time Transient Stability Assessment
Sayyeda Umbereen Bano, Mehrdad Ghandhari, Robert Eriksson.
2022, 2022 North American Power Symposium, NAPS 2022, Salt Lake City, United States of America, Oct 9 2022 - Oct 11 2022
Publication list last updated from DiVA on 2024-08-22 22:58.
Page started: 2019-11-01
Last generated: 2024-08-22