Title
Graph-Based Second-Order Cone Programming Model for Resilient Feeder Routing Using GIS Data
Document Type
Article
Publication Date
8-1-2020
Abstract
One important task in power distribution system expansion planning is feeder routing (FR), which is to determine the optimal route from a medium voltage substation to load points and the optimal size of the conductors to be installed. This paper proposes a novel graph-based model for the resilient feeder routing problem using geographical information system (GIS). We show that incorporating GIS data enhances the FR solution optimality. Moreover, by introducing a representing graph, radiality of the planned network is guaranteed. A second-order cone programming (SOCP) model is used to model power flows through feeders. Since the representing graph ensures radiality, the SOCP model is exact. The uncertainty of rooftop solar generations and demand forecasting errors are taken into account, and a stochastic programming-based solution algorithm is developed. The proposed model represents practical aspects such as economic objectives (installation cost, power losses, resiliency), technical constraints (voltage limits, radiality constraint, reliability), and geographical constraints. The efficiency of the algorithm is demonstrated using three case studies: a small test system, a realistic one, and a synthetic large test system.
Publication Source (Journal or Book title)
IEEE Transactions on Power Delivery
First Page
1999
Last Page
2010
Recommended Citation
Mehrtash, M., Kargarian, A., & Conejo, A. (2020). Graph-Based Second-Order Cone Programming Model for Resilient Feeder Routing Using GIS Data. IEEE Transactions on Power Delivery, 35 (4), 1999-2010. https://doi.org/10.1109/TPWRD.2019.2959229