Thesis supervisor: Attila Magyar
co-supervisor: Attila Fodor
Location of studies (in Hungarian): University of Pannonia, Faculty of Information Technology, Department of Electrical Engineering and Information Systems Abbreviation of location of studies: PE
Description of the research topic:
Smart grids seem to be a gool solution for the growing energy problems as well as for the outdates power transmission network. In a smart grid, consumers, service provider, market, household powerplants, power storage units and central dispatch center are connected via communication lines so that it is possible to synchronize the energy demand and the production in an optimal way taking the actual market circumstances into account [1,2].
Modern and effective optimizing methods will be used or developed for the design and the selection of the optimal operation modes anabling even the real-time re-scheduling and noise suppression [3].
The optimal operation problem can be expressed as a multi-level control problem where the local controllers of the energy production units ara coordinated by a supervisory controller. Several strategies can be applied for the coordination of the local controllers and the supervisory controller during the research. Beacause of the strict constraints on the control inputs and certain variables a kind on model-predictive control method must be applied that yields some MILP or MINLP optimization problem to be solved.
Preliminary results can be found in the following publications:
[1] Görbe, P., Magyar, A., Hangos, K.M. (2012), Reduction of power losses with smart grids fueled with renewable sources and applying EV batteries, Journal of Cleaner Production 34(1), 125-137.
[2] Görbe P, Fodor A, Magyar A, Hangos KM (2014),Experimental study of the nonlinear distortion caused by domestic power plants, Applied Thermal Engineering 70(2), 1288-1293.
[3] Neukirchner László, Görbe Péter, Magyar Attila (2017), Voltage unbalance reduction in the domestic distribution area using asymmetric inverters, Journal Of Cleaner Production 142(4), 1710-1720.
Number of students who can be accepted: 1
Deadline for application: 2018-12-31
2024. IV. 17. ODT ülés Az ODT következő ülésére 2024. június 14-én, pénteken 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).
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