Now that the use of renewable energy sources within our electricity network is on the increase, there is a growing demand for new technologies and processes that enable those energy sources to be integrated within the existing model. Interoperability forms a crucial challenge with regard to the energy market of tomorrow.

Identifying and smartly controlling flexible consumers is essential, both to provide load-balancing on a system level and to prevent or resolve local network issues. Buildings equipped with local (PV) production, batteries (stationary or in the form of an electric vehicle) and electrical (heat-pump based) heating, cooling and hot water production systems are highly suitable for this. Utilising and valorising this flexibility also dovetails with the vision and ambition to engage prosumers as more active participants in the energy system by allowing them to valorise their available flexibility as a support service.

Publications

A data-driven optimization framework for industrial demand-side flexibility
Year: 
2023
Journal: 
ENERGY
Manna, C; Lahariya, M; Karami, F; Develder, C
A Framework for Constrained Static State Estimation in Unbalanced Distribution Networks
Year: 
2022
Journal: 
2022 17TH INTERNATIONAL CONFERENCE ON PROBABILISTIC METHODS APPLIED TO POWER SYSTEMS (PMAPS)
Vanin, M; Van Acker, T; D'hulst, R; Van Hertem, D
Decoupled probabilistic feeder hosting capacity calculations using general polynomial chaos
Year: 
2022
Journal: 
ELECTRIC POWER SYSTEMS RESEARCH
Koirala, A; Hashmi, MU; D'hulst, R; Van Hertem, D
Uncertainty quantification in low voltage distribution grids: Comparing Monte Carlo and general polynomial chaos approaches
Year: 
2022
Journal: 
SUSTAINABLE ENERGY GRIDS & NETWORKS
Koirala, A; Van Acker, T; D'hulst, R; Van Hertem, D

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