OUREL
Optimal Utilization of Renewable Energies in Low Voltage (LV) Power Distribution Systems
Our future energy grids will be predominantly influenced by the ongoing transition to renewable energies as well as the electrification of the heat and mobility sector. Moving away from fossil-powered electricity generation implies that an increasing amount of Distributed Energy Resources (DERs) have to be integrated into low-voltage distribution grids. Such DERs include heat pumps (HPs), photovoltaic power plants, battery storage as well as electric vehicles (EVs). However, pairing volatile energy generation caused by dynamic wind and irradiance with high-demand scenarios (EVs and HPs) imposes substantial risks for grid stability.
The OUREL project aims to investigate, develop and verify a distributed operation management method for low-voltage grids with a high penetration of DERs. The main objective of the envisioned Cyber-Physical-System (CPS) is to utilize renewable energies as much as possible, without endangering grid stability
For this, DERs participate in a grid-wide optimization process, executed periodically and asynchronously at each node.
The Cyber-Physical-System requires the deployment of an extensive communication network to allow DERs to exchange local information. As communication network characteristics effect the control system's performance significantly, a thorough analysis is necessary to ensure stable and safe grid operation.
The Institute of Communication Networks' (ComNets) contribution to the OUREL project focuses on establishing said communication network in an efficient, effective and timely manner. The exchange of information between nodes has to happen as often and as fast as possible to minimize tracking errors in a node's view of the grid. We analyze how the control algorithm performs under varying network conditions and error states (e.g., node failure, interference). Furthermore, we investigate the effects of different communication technologies on the delay, update interval, and Age of Information distribution for exchanging local information. The project includes theoretical analysis as well as the development of a Hardware-in-the-loop emulation setup.
Envisioned Smart Grid combining communication networks with distributed energy resources.
Consumer topology of typical sub-urban distribution grids.
Age of Information capturing the freshness of information by combining delay and update interval.
Funding
OUREL is funded by the German Research Foundation (DFG) under the grant number 426655646.
Project Partners
Project Members
Publications
2023
2021
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Minimizing Age of Information for Distributed Control in Smart Grids
Fisser, Leonard; Timm-Giel, Andreas
IEEE International Conference on Communications, Control, and Computing Technologies for Smart Grids (SmartGridComm 2021)
Verlags DOI
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Utility-based operation management for low voltage distribution grids using online optimization
Ipach, Hanko; Fisser, Leonard; Becker, Christian; Timm-Giel, Andreas
Elektrotechnik und Informationstechnik 138 (8) : 495-504 (2021)
Open Access
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Verlags DOI
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A Modified Branch-Current Based Algorithm for Fast Low Voltage Distribution Grid State Estimation using Smart Meter Data
Ipach, Hanko; Stock, Simon; Becker, Christian
Von Komponenten bis zum Gesamtsystem fur die Energiewende (ETG-Kongress 2021)
2020