Zeyu Wang, Daniel S. Kirschen, Baosen Zhang
Published 2017-11-21Version 1
In this paper, we develop semidefinite programming (SDP) models aimed at solving optimal power flow (OPF) problems in distribution systems. We propose two models: the symmetrical SDP model which modifies the existing BFM-SDP model. Then based on the symmetrical SDP model, we develop a voltage regulation model that solves OPF problems with binding voltage constraints. To evaluate the accuracy of our proposed OPF models, we rely on OpenDSS, a power flow solver, to generate power flow solutions as the benchmarks. Comprehensive case studies are conducted showing our SDP models have better numerical stability and yield more accurate results than existing approaches
Solving Optimal Power Flow for Distribution Networks with State Estimation Feedback
Simple Certificate of Solvability of Power Flow Equations for Distribution Systems
Renewables and Storage in Distribution Systems: Centralized vs. Decentralized Integration
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