A Mixed-Integer Nonlinear Programming Model for Optimal Reconfiguration of DC Distribution Feeders
Copyright policy )A Mixed-Integer Nonlinear Programming Model for Optimal Reconfiguration of DC Distribution Feeders
This paper deals with the optimal reconfiguration problem of DC distribution networks by proposing a new mixed-integer nonlinear programming (MINLP) formulation. This MINLP model focuses on minimising the power losses in the distribution lines by reformulating the classical power balance equations through a branch-to-node incidence matrix. The general algebraic modelling system (GAMS) is chosen as a solution tool, showing in tutorial form the implementation of the proposed MINLP model in a 6-nodes test feeder with 10 candidate lines. The validation of the MINLP formulation is performed in two classical 10-nodes DC test feeders. These are typically used for power flow and optimal power flow analyses. Numerical results demonstrate that power losses are reduced by about 16% when the optimal reconfiguration plan is found. The numerical validations are made in the GAMS software licensed by Universidad Tecnológica de Bolívar.
- University of Jaén Spain
- District University of Bogotá Colombia
- Universidad Tecnológica de Bolívar Colombia
- District University of Bogotá Colombia
- Pascual Bravo Institution University Colombia
mixed-integer nonlinear programming model, Technology, Optimal reconfiguration of distribution grids, LEMB, Mixed-integer nonlinear programming model, branch-to-node incidence matrix, T, General algebraic modelling system, branch-to-node incidence matrix; direct current networks; mixed-integer nonlinear programming model; general algebraic modelling system; optimal reconfiguration of distribution grids, direct current networks, general algebraic modelling system, Direct current networks, optimal reconfiguration of distribution grids, Branch-to-node incidence matrix
mixed-integer nonlinear programming model, Technology, Optimal reconfiguration of distribution grids, LEMB, Mixed-integer nonlinear programming model, branch-to-node incidence matrix, T, General algebraic modelling system, branch-to-node incidence matrix; direct current networks; mixed-integer nonlinear programming model; general algebraic modelling system; optimal reconfiguration of distribution grids, direct current networks, general algebraic modelling system, Direct current networks, optimal reconfiguration of distribution grids, Branch-to-node incidence matrix
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