Suhyoun Yu, Hung D. Nguyen, Konstantin S. Turitsyn
Published 2015-03-05Version 1
Power flow solvable boundary plays an important role in contingency analysis, security assessment, and planning processes. However, to construct the real solvable boundary in multidimensional parameter space is burdensome and time consuming. In this paper, we develop a new technique to approximate the solvable boundary of distribution systems based on Banach fixed point theorem. Not only the new technique is fast and non-iterative, but also the approximated boundary is more valuable to system operators in the sense that it is closer to the feasible region. Moreover, a simple solvable criterion is also introduced that can serve as a security constraint in various planning and operational problems.
Comments: 5 pages, 6 figures, accepted to PESGM 2015
Locating All Real Solutions of Power Flow Equations: A Convex Optimization Based Method
Plug-and-play Solvability of the Power Flow Equations for Interconnected DC Microgrids with Constant Power Loads
Renewables and Storage in Distribution Systems: Centralized vs. Decentralized Integration
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