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Unified AC transmission expansion planning formulation incorporating VSC-MTDC, FACTS devices, and reactive power compensation

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dc.contributor.authorDe Araújo, Anderson Ricardo Justo
dc.contributor.authorTorres Contreras, Santiago Patricio
dc.contributor.authorPissolato Filho, José
dc.contributor.authorCastro, Carlos
dc.contributor.authorVan Hertem, Dirk
dc.date.accessioned2023-01-24T13:29:16Z
dc.date.available2023-01-24T13:29:16Z
dc.date.issued2023
dc.description.abstractThe main aim of the static Transmission Network Expansion Planning (TNEP) is to determine which and where new transmission equipment must be installed. The complexity added by the non-linearities leads to simplifications, which include the DC model. However, most non-linearities are solvable nowadays. Thus, the new scenario of large non-dispatchable power sources penetration and the several developments in technologies, e.g, Flexible AC Transmission Systems (FACTS) devices and High Voltage Direct Current (HVDC) interconnections, motivate the use of the AC model with its non-linearities. Some research works address the use of some of those technologies for TNEP in an independent fashion, which can lead to sub-optimal solutions. In this work, Voltage Source Controlled-Multiterminal HVDC (VSC-MTDC) systems, FACTS devices, and Reactive Power Planning (RPP) are integrated into the same planning optimization process, so that a unified AC TNEP formulation is proposed. A non-linear mathematical programming technique and a differential evolution based metaheuristics are chosen to achieve an optimal transmission configuration. To evaluate the benefits of the proposed approach, two IEEE modified test systems (9 and 118 buses) are used. Results suggest that more economical solutions can be obtained if different types of reinforcement strategies are taken into account in a unified approach.
dc.identifier.doi10.1016/j.epsr.2022.109017
dc.identifier.issn0378-7796
dc.identifier.urihttps://www.scopus.com/record/display.uri?eid=2-s2.0-85143630019&doi=10.1016%2fj.epsr.2022.109017&origin=inward&txGid=04efd7d2dea3fad41244ae7278227e8b
dc.language.isoes_ES
dc.sourceElectric Power Systems Research
dc.subjectAC DC model
dc.subjectFACTS
dc.subjectHVDC
dc.subjectReactive power compensation
dc.titleUnified AC transmission expansion planning formulation incorporating VSC-MTDC, FACTS devices, and reactive power compensation
dc.typeARTÍCULO
dc.ucuenca.afiliacionDe Araújo, A., Universidade Estadual de Campinas, Campinas, Brasil
dc.ucuenca.afiliacionTorres, S., Universidad de Cuenca, Cuenca, Ecuador
dc.ucuenca.afiliacionPissolato, J., Universidade Estadual de Campinas, Campinas, Brasil
dc.ucuenca.afiliacionCastro, C., Universidade Estadual de Campinas, Campinas, Brasil
dc.ucuenca.afiliacionVan Hertem, D., KU Leuven (Katholieke Universiteit Leuven), Leuven, Belgica
dc.ucuenca.areaconocimientofrascatiamplio2. Ingeniería y Tecnología
dc.ucuenca.areaconocimientofrascatidetallado2.2.1 Ingeniería Eléctrica y Electrónica
dc.ucuenca.areaconocimientofrascatiespecifico2.2 Ingenierias Eléctrica, Electrónica e Información
dc.ucuenca.areaconocimientounescoamplio07 - Ingeniería, Industria y Construcción
dc.ucuenca.areaconocimientounescodetallado0713 - Electricidad y Energia
dc.ucuenca.areaconocimientounescoespecifico071 - Ingeniería y Profesiones Afines
dc.ucuenca.correspondenciaDe Araújo, Anderson Ricardo Justo, ricardoa@unicamp.br
dc.ucuenca.cuartilQ1
dc.ucuenca.factorimpacto1.109
dc.ucuenca.idautor0000-0003-2183-383X
dc.ucuenca.idautor0102448958
dc.ucuenca.idautor0000-0002-7932-3974
dc.ucuenca.idautor56421415800
dc.ucuenca.idautor0000-0001-5461-8891
dc.ucuenca.indicebibliograficoSCOPUS
dc.ucuenca.numerocitaciones0
dc.ucuenca.urifuentehttps://www.sciencedirect.com/journal/electric-power-systems-research/vol/216/suppl/C
dc.ucuenca.versionVersión publicada
dc.ucuenca.volumenVolumen 216
dspace.entity.typePublication
relation.isAuthorOfPublication9c4a20ca-f4af-4206-8012-43c618af2170
relation.isAuthorOfPublication.latestForDiscovery9c4a20ca-f4af-4206-8012-43c618af2170

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