The nature of the power system is radically changing due to the massive deployment of power electronics required for, among others, renewables integration into the grid. Traditional linear approximation and modelling techniques for power system simulation and analysis fail to predict fast transient behaviour when networks are dominated by converters.
In the European project TenSyGrid, a consortium of L-Università ta' Malta in La Valetta, the Universitat Politècnica de Catalunya and the start-up eRoots from Barcelona, as well as the Application Center for Integration of Local Energy Systems of the Fraunhofer Institute for Wind Energy Systems IWES in Bremerhaven and HAW develops innovative solutions for these problems. Approaches to multilinear modelling developed at HAW will be extended by new methods for stability analysis, which facilitate the integration of renewable energy systems into a secure and stable operation of the power grid.
Projektteam
Dr. Teresa Wong, Dr. Sarah Casura
Funding
This research was funded by CETPartnership, the Clean Energy Transition Partnership under the 2023 joint call for research proposals, co funded by the European Commission (GA 101 069750 ) and with the funding organizations as detailed on https://cetpartnership.eu/funding-agencies-and-call-modules.
