Date of this Version
2-14-2020
Document Type
Article
Abstract
An optimal power routing (OPR) scheme between and within interlinking converters (ICs) in unbalanced hybrid AC–DC microgrids to minimise the power imbalance factor at the point of common coupling, active power losses, and voltage deviation indices for microgrids in grid-connected operating mode is proposed in this study. These goals are achieved through a multi-objective optimisation model by optimal distributing of mobile loads between available charging stations and at the same time, OPR within three phases of three-phase four-lag AC/DC converters. Numerical results obtained from implementing the proposed method on the modified IEEE 13-bus system, as an unbalanced hybrid microgrid, and IEEE 34-bus test system, as an unbalanced distribution system, demonstrate that proposed OPR algorithm is successful to satisfy the optimisation goals. For this purpose, four case studies are defined and studied to demonstrate the unique features of the proposed OPR comparing with other power routing schemes. In addition to simulation results, the OPR scheme between ICs is realistically implemented at Florida International University smart grid testbed to show the effect of the power routing on energy losses reduction.
Recommended Citation
Esfahani, Mohammad Mahmoudian; Habib, Hany F.; and Mohammed, Osama A., "Optimal power routing scheme between and within interlinking converters in unbalanced hybrid AC–DC microgrids" (2020). Electrical and Computer Engineering Faculty Publications. 115.
https://digitalcommons.fiu.edu/ece_fac/115