publication . Conference object . 2019

Effects of Increasing Power Electronics on System Stability: Results from MIGRATE Questionnaire

V. N. Sewdien; M. van der Meijden; T. Breithaupt; L. Hofmann; D. Herwig; A. Mertens; B. W. Tuinema; J. L. Rueda Torres;
English
  • Published: 07 Feb 2019
  • Publisher: IEEE
Abstract
Power systems throughout the world are experiencing increasing levels of power electronics interfaced generation in their generation portfolio. As these devices have a significantly different dynamic behavior than conventional synchronous generators, it is expected that this trend will pose power system stability related challenges. This paper presents the results of a questionnaire conducted within the MIGRATE project. The aim of this questionnaire, to which more than 20 European transmission system operators (TSOs) responded, was to identify and prioritize these challenges. The TSOs identified challenges related to rotor angle stability (two), frequency stabil...
Subjects
free text keywords: Rotor angle, Automotive engineering, Power electronics, Ranking, Inertia, media_common.quotation_subject, media_common, Computer science, Portfolio, Renewable energy, business.industry, business, Electric power system, System monitoring
Related Organizations
Funded by
EC| MIGRATE
Project
MIGRATE
Massive InteGRATion of power Electronic devices
  • Funder: European Commission (EC)
  • Project Code: 691800
  • Funding stream: H2020 | RIA
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publication . Conference object . 2019

Effects of Increasing Power Electronics on System Stability: Results from MIGRATE Questionnaire

V. N. Sewdien; M. van der Meijden; T. Breithaupt; L. Hofmann; D. Herwig; A. Mertens; B. W. Tuinema; J. L. Rueda Torres;