Approximated mixed-integer convex model for phase balancing in three-phase electric networks

Montoya, Oscar Danilo; Grisales-Noreña, Luis Fernando; Rivas-Trujillo, Edwin

dc.contributor.author	Montoya, Oscar Danilo
dc.contributor.author	Grisales-Noreña, Luis Fernando
dc.contributor.author	Rivas-Trujillo, Edwin
dc.date.accessioned	2023-07-21T15:45:58Z
dc.date.available	2023-07-21T15:45:58Z
dc.date.issued	2021
dc.date.submitted	2023
dc.identifier.citation	Montoya, O.D.; Grisales-Noreña, L.F.; Rivas-Trujillo, E. Approximated Mixed-Integer Convex Model for Phase Balancing in Three-Phase Electric Networks. Computers 2021, 10, 109. https://doi.org/10.3390/computers10090109	spa
dc.identifier.uri	https://hdl.handle.net/20.500.12585/12283
dc.description.abstract	With this study, we address the optimal phase balancing problem in three-phase networks with asymmetric loads in reference to a mixed-integer quadratic convex (MIQC) model. The objective function considers the minimization of the sum of the square currents through the distribution lines multiplied by the average resistance value of the line. As constraints are considered for the active and reactive power redistribution in all the nodes considering a 3 × 3 binary decision variable having six possible combinations, the branch and nodal current relations are related to an extended upper-triangular matrix. The solution offered by the proposed MIQC model is evaluated using the triangular-based three-phase power flow method in order to determine the final steady state of the network with respect to the number of power loss upon the application of the phase balancing approach. The numerical results in three radial test feeders composed of 8, 15, and 25 nodes demonstrated the effectiveness of the proposed MIQC model as compared to metaheuristic optimizers such as the genetic algorithm, black hole optimizer, sine–cosine algorithm, and vortex search algorithm. All simulations were carried out in MATLAB 2020a using the CVX tool and the Gurobi solver. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.	spa
dc.format.extent	12 páginas
dc.format.mimetype	application/pdf	spa
dc.language.iso	eng	spa
dc.rights.uri	http://creativecommons.org/licenses/by-nc-nd/4.0/	*
dc.source	Computers 2021, 10, 109	spa
dc.title	Approximated mixed-integer convex model for phase balancing in three-phase electric networks	spa
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datacite.rights	http://purl.org/coar/access_right/c_abf2	spa
oaire.version	http://purl.org/coar/version/c_b1a7d7d4d402bcce	spa
dc.type.driver	info:eu-repo/semantics/article	spa
dc.type.hasversion	info:eu-repo/semantics/draft	spa
dc.identifier.doi	https://doi.org/10.3390/computers10090109
dc.subject.keywords	Distribution Network;	spa
dc.subject.keywords	Reconfiguration;	spa
dc.subject.keywords	Distributed Generation	spa
dc.rights.accessrights	info:eu-repo/semantics/openAccess	spa
dc.rights.cc	Attribution-NonCommercial-NoDerivatives 4.0 Internacional	*
dc.identifier.instname	Universidad Tecnológica de Bolívar	spa
dc.identifier.reponame	Repositorio Universidad Tecnológica de Bolívar	spa
dc.publisher.place	Cartagena de Indias	spa
dc.subject.armarc	LEMB
dc.type.spa	http://purl.org/coar/resource_type/c_6501	spa
oaire.resourcetype	http://purl.org/coar/resource_type/c_6501	spa

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