Ognjen Stanojev

M.Sc.
Ognjen Stanojev
PhD Student
Alumni
Automation and optimization are becoming highly relevant in management of modern electricity grids. Cutting-edge research in these fields moves me.

Ognjen Stanojev is working towards the Ph.D. degree in Electrical Engineering at ETH Zurich, Power Systems Laboratory.  He received the B.Sc. degree in Electrical and Computer Engineering with a major in power systems from the University of Novi Sad, Serbia, in 2017. He obtained the M.Sc. degree in Electrical Engineering and Information Technology in 2019 from the Swiss Federal Institute of Technology, Zurich, Switzerland. His research interests include control and optimization of low inertia power systems and active distribution networks.

Scientific Publications

Published
"Safe Reinforcement Learning for Strategic Bidding of Virtual Power Plants in Day-Ahead Markets"
SmartGridComm 2023
Published
Tractable Identification of Electric Distribution Networks
62nd IEEE Conference on Decision and Control
Published
Improving Stability of Low-Inertia Systems using Virtual Induction Machine Synchronization for Grid-Following Converters
IEEE Transactions on Power Systems
Pages 1-14
Fast Mapping of Flexibility Regions at TSO-DSO Interfaces under Uncertainty
arxiv
Online Feedback Droop Scheduling in Distribution Grids for Frequency and Local Voltage Control
arxiv
Published
Multiple Ancillary Services Provision by Distributed Energy Resources in Active Distribution Networks
arXiv
Primary Frequency Control Provision by Distributed Energy Resources in Active Distribution Networks
IEEE PowerTech

Research projects as Researcher

Title
Principal Investigators

Ancillary Services Provision in Power Systems with High Shares of Renewable Energy Sources

Summary

With the replacement of synchronous machine based generation by power electronics connected renewable generators, the speed of frequency dynamics increases and new voltage issues arise in distribution systems due to decreased system inertia and the distributed nature of these resources. In this project, we focus on the provision of ancillary services by distributed energy resources (DER) at different time scales. This entails Fast Frequency Control provided by grid-forming Voltage Source Converters and at the slower time scale, the integration of active distribution grids in a set of ancillary services.

Ancillary Services Provision in Power Systems with High Shares of Renewable Energy Sources

With the replacement of synchronous machine based generation by power electronics connected renewable generators, the speed of frequency dynamics increases and new voltage issues arise in distribution systems due to decreased system inertia and the distributed nature of these resources. In this project, we focus on the provision of ancillary services by distributed energy resources (DER) at different time scales. This entails Fast Frequency Control provided by grid-forming Voltage Source Converters and at the slower time scale, the integration of active distribution grids in a set of ancillary services.

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