Symmetry (Jun 2021)

Optimal Demand Reconfiguration in Three-Phase Distribution Grids Using an MI-Convex Model

  • Oscar Danilo Montoya,
  • Andres Arias-Londoño,
  • Luis Fernando Grisales-Noreña,
  • José Ángel Barrios,
  • Harold R. Chamorro

DOI
https://doi.org/10.3390/sym13071124
Journal volume & issue
Vol. 13, no. 7
p. 1124

Abstract

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The problem of the optimal load redistribution in electrical three-phase medium-voltage grids is addressed in this research from the point of view of mixed-integer convex optimization. The mathematical formulation of the load redistribution problem is developed in terminals of the distribution node by accumulating all active and reactive power loads per phase. These loads are used to propose an objective function in terms of minimization of the average unbalanced (asymmetry) grade of the network with respect to the ideal mean consumption per-phase. The objective function is defined as the l1-norm which is a convex function. As the constraints consider the binary nature of the decision variable, each node is conformed by a 3×3 matrix where each row and column have to sum 1, and two equations associated with the load redistribution at each phase for each of the network nodes. Numerical results demonstrate the efficiency of the proposed mixed-integer convex model to equilibrate the power consumption per phase in regards with the ideal value in three different test feeders, which are composed of 4, 15, and 37 buses, respectively.

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