Title
Multi-microgrid energy systems operation incorporating distribution-interline power flow controller
Document Type
Article
Publication Date
12-1-2015
Abstract
Innovative power electronic devices such as distribution-interline power flow controller (D-IPFC) can be utilized to improve the operating performance of power distribution systems. In this paper, a power injection model is presented to formulate the D-IPFC operation in distribution grids. The proposed power injection model keeps original symmetry of the impedance matrix as well as system equations which facilitates power flow calculations. Then, a centralized multi-objective optimization algorithm is formulated to optimally coordinate multi-microgrids (MMGs) through D-IPFC. The final optimal operating point of MMG is a trade-off between minimization of operating cost, voltage profile deviation, and feeder congestion. To guarantee voltage stability of the system, a voltage security constraint is considered in the optimization problem. The proposed algorithm improves flexibility of the active distribution grids which is essential for resilient smart power grids. A typical MMG and a spider diagram are applied to show the effectiveness of the proposed algorithm.
Publication Source (Journal or Book title)
Electric Power Systems Research
First Page
208
Last Page
216
Recommended Citation
Kargarian, A., & Rahmani, M. (2015). Multi-microgrid energy systems operation incorporating distribution-interline power flow controller. Electric Power Systems Research, 129, 208-216. https://doi.org/10.1016/j.epsr.2015.08.015