@inproceedings{daCostaFernandesEid2014, author = {Jesus Salazar da Costa Fernandes and Mahmoud Eid}, title = {Forecast based energy management for trigeneration subnets in smart grids}, series = {Proceedings of 7th International PV‐Hybrids and Mini Grids Conference}, isbn = {9783943891379}, url = {https://nbn-resolving.org/urn:nbn:de:bsz:ofb1-opus4-15027}, pages = {147 -- 152}, year = {2014}, abstract = {Meeting the requirements of smart grids local, decentralized subnets will offer additional potentials to stabilize and compensate the utility grid mainly on the low voltage level. In a quite complex configuration these decentralized energy systems are combined power, heat and cooling power distributions. According to the regional and local availability of renewable energy sources advanced energy management concepts should consider climatic conditions as well as the state of the interacting utility grid and consumption profiles. The approach uses demonstrational setups to develop a forecast based energy management for trigeneration subnets by taking into account the running conditions of local electrical and thermal energy conversion units. This should lead to the best coverage of the demand and supporting/stabilizing the utility grid at the same time. For the first of three demonstrational projects the priorities of the subnet are given with the maximization of the CHP operation to substitute a major part of the heating and cooling power delivered by electric heaters or compression chillers.}, language = {en} }