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dc.contributor.authorBoudou, Mathieufr
dc.contributor.authorLanglois, Sébastienfr
dc.contributor.authorSad Saoud, Kahinafr
dc.contributor.otherYang, Christinefr
dc.date.accessioned2018-05-04T14:21:23Z
dc.date.available2018-05-04T14:21:23Z
dc.date.created2017fr
dc.date.issued2018-05-04
dc.identifier.urihttp://hdl.handle.net/11143/12167
dc.description.abstractAbstract: "Short-circuit faults in electrical power networks result in substantial electromagnetic forces on conductor cables as well as supporting structures. These dynamic forces often have a leading impact on the mechanical response of such elements, particularly in the case of short spans commonly encountered in substation structures. In this regard, most of the available design tools, such as international standard IEC 60865 [1], provide simplified equations to estimate the maximum forces induced during a short-circuit event. Besides the fact that such methods may be either too conservative or completely unsafe, the computed forces are imparted to the support structures as equivalent static loadings with safety margins [2], thus incurring unnecessarily prohibitive costs. Accounting for the dynamic effects in substation structures has shown to be essential for accurate and optimal designs [3]. However, ideal numerical modeling is usually time-consuming and requires large computational resources. In the present paper, a time-domain finite element model devoted to the dynamic analysis of conductors and support structures is presented for short flexible substation spans. The numerical model, developed using the open source software Code_Aster, employs one-dimensional elements accounting for large displacements to model a study case subjected to two consecutive short-circuit conditions. Three levels of modeling are analyzed and the resulting efforts in the structure are compared with analogous full-scale experimental results. Further parametric analysis is carried out numerically with a view to studying the effect of the short-circuits most influential parameters [...]."fr
dc.language.isoengfr
dc.relation.ispartofInternational symposium on the dynamics and aerodynamics of cable (2017 : Porto, Portugal)fr
dc.rightsAttribution - Pas d’Utilisation Commerciale - Pas de Modification 2.5 Canada*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/2.5/ca/*
dc.subjectTime-domainfr
dc.subjectNumerical modelfr
dc.subjectSubstationfr
dc.subjectConductorfr
dc.subjectShort-circuitfr
dc.titleTime-domain numerical model of substation conductor span subjected to short-circuit loadingfr
dc.typeArticle dans une conférencefr
udes.description.pages8 p.fr
udes.description.diffusionDiffusé par Savoirs UdeS, le dépôt institutionnel de l'Université de Sherbrookefr
dc.identifier.bibliographicCitationBoudou. M., Langlois, S., Sad Saoud, K. (30-31 octobre 2017). Time-domain numerical model of substation conductor span subjected to short-circuit loading. Communication présentée au International symposium on the dynamics and aerodynamics of cable, Porto, Portugal.fr
udes.description.ordreauteursBoudou, Mathieu; Langlois, Sébastien; Sad Saoud, Kahina; Yang, Christinefr
udes.description.sourcecomInternational symposium on the dynamics and aerodynamics of cable (2017 : Porto, Portugal)fr


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Attribution - Pas d’Utilisation Commerciale - Pas de Modification 2.5 Canada
Except where otherwise noted, this document's license is described as Attribution - Pas d’Utilisation Commerciale - Pas de Modification 2.5 Canada