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dc.contributor.authorGutiérrez Florensa, Joanes-ES
dc.contributor.authorSanniti, Francescoes-ES
dc.contributor.authorTedeschi, Domenicoes-ES
dc.contributor.authorSigrist, Lukases-ES
dc.contributor.authorOrtega Manjavacas, Álvaroes-ES
dc.contributor.authorMilano, Federicoes-ES
dc.date.accessioned2026-07-14T04:36:06Z-
dc.date.available2026-07-14T04:36:06Z-
dc.date.issued2027-01-01es_ES
dc.identifier.issn0378-7796es_ES
dc.identifier.urihttps://doi.org/10.1016/j.epsr.2026.113529es_ES
dc.identifier.urihttp://hdl.handle.net/11531/111886-
dc.descriptionArtículos en revistases_ES
dc.description.abstractA precise estimation of the Rate of Change of Frequency (RoCoF) is crucial for secure power system operation. In fact, RoCoF is strictly related to the amount of the available physical and/or virtual inertia of the system and the severity of the active power unbalance following a disturbance. For this reason, it is widely exploited in different protection systems, e.g., Anti-Islanding, Under Frequency Load Shedding (UFLS) and wide-area protection systems. The new paradigm of modern power systems, with a low-inertia and converter-based generation assets, is increasing the transient severity, making the frequency and the RoCoF estimation more complex and less precise for the actual devices. This work addresses this issue by proposing a numerically robust approach based on concepts inherited from differential geometry and fluid mechanics. The proposed approach is then tested with high-sampling real experimental measurements and used to develop a faster control logic for a RoCoF-based UFLS control scheme. The proposed approach provides information to protections regarding the nature of the contingency which can be used to improve its response.es-ES
dc.description.abstractA precise estimation of the Rate of Change of Frequency (RoCoF) is crucial for secure power system operation. In fact, RoCoF is strictly related to the amount of the available physical and/or virtual inertia of the system and the severity of the active power unbalance following a disturbance. For this reason, it is widely exploited in different protection systems, e.g., Anti-Islanding, Under Frequency Load Shedding (UFLS) and wide-area protection systems. The new paradigm of modern power systems, with a low-inertia and converter-based generation assets, is increasing the transient severity, making the frequency and the RoCoF estimation more complex and less precise for the actual devices. This work addresses this issue by proposing a numerically robust approach based on concepts inherited from differential geometry and fluid mechanics. The proposed approach is then tested with high-sampling real experimental measurements and used to develop a faster control logic for a RoCoF-based UFLS control scheme. The proposed approach provides information to protections regarding the nature of the contingency which can be used to improve its response.en-GB
dc.language.isoen-GBes_ES
dc.sourceRevista: Electric Power Systems Research, Periodo: 1, Volumen: online, Número: , Página inicial: 113529, Página final: 0es_ES
dc.subject.otherInstituto de Investigación Tecnológica (IIT)es_ES
dc.titleTheoretical and experimental limitations of RoCoF estimation: A geometric approaches_ES
dc.typeinfo:eu-repo/semantics/articlees_ES
dc.description.versioninfo:eu-repo/semantics/publishedVersiones_ES
dc.rights.holderes_ES
dc.rights.accessRightsinfo:eu-repo/semantics/openAccesses_ES
dc.keywordsDifferential geometry; Fluid mechanics; RoCoF measurement; Signal processing; Under-frequency load sheddinges-ES
dc.keywordsDifferential geometry; Fluid mechanics; RoCoF measurement; Signal processing; Under-frequency load sheddingen-GB
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