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Main Authors: Bonafé, Nicolas, Freytes, Julian, Saad, Hani
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.04080
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author Bonafé, Nicolas
Freytes, Julian
Saad, Hani
author_facet Bonafé, Nicolas
Freytes, Julian
Saad, Hani
contents This article proposes an application of a derisking methodology of subsynchronous torsional oscillations considering a realistic use case. The main objective is to summarize and draft a synthetic paper clarifying the complete methodology highlighting the main information needed step-by-step. For exemplification, a real model from a decommissioned oil power plant is adopted, where a fictitious high voltage direct current power link is connected. In this article, stress is laid on details of the application of the derisking methods: the unit interaction factor and the complex torque coefficients method. Then, the different steps to obtain results are explicitly explained. Moreover, the design and tuning process of supplementary subsynchronous damping controller is discussed. This mitigation section uses minimal information to correctly damp the unstable oscillations, as one would expect from industrial projects where the data sharing may be limited. Finally, the resources needed to perform each step of the study were summarized.
format Preprint
id arxiv_https___arxiv_org_abs_2405_04080
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Derisking of subsynchronous torsional oscillations in power systems with conventional and inverter-based generation
Bonafé, Nicolas
Freytes, Julian
Saad, Hani
Systems and Control
This article proposes an application of a derisking methodology of subsynchronous torsional oscillations considering a realistic use case. The main objective is to summarize and draft a synthetic paper clarifying the complete methodology highlighting the main information needed step-by-step. For exemplification, a real model from a decommissioned oil power plant is adopted, where a fictitious high voltage direct current power link is connected. In this article, stress is laid on details of the application of the derisking methods: the unit interaction factor and the complex torque coefficients method. Then, the different steps to obtain results are explicitly explained. Moreover, the design and tuning process of supplementary subsynchronous damping controller is discussed. This mitigation section uses minimal information to correctly damp the unstable oscillations, as one would expect from industrial projects where the data sharing may be limited. Finally, the resources needed to perform each step of the study were summarized.
title Derisking of subsynchronous torsional oscillations in power systems with conventional and inverter-based generation
topic Systems and Control
url https://arxiv.org/abs/2405.04080