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Wind power within European grid codes: Evolution, status and outlook

Wind power within European grid codes: Evolution, status and outlook

Kategori
Tidsskriftspublikasjon
Sammendrag
Grid codes are technical specifications that define the requirements for any facility connected to electricity grids. Wind power plants are increasingly facing system stability support requirements similar to conventional power stations, which is to some extent unavoidable, as the share of wind power in the generation mix is growing. The adaptation process of grid codes for wind power plants is not yet complete, and grid codes are expected to evolve further in the future. ENTSO-E is the umbrella organization for European TSOs, seen by many as a leader in terms of requirements sophistication. A current development by ENTSO-E aims to develop a uniform grid code framework for Europe. The new European codes leave many key aspects unspecified, referring instead to regulation by the relevant TSO, but they do provide a positive and encouraging step in the right direction. The present document is largely based on the definitions and provisions set out by ENTSO-E. The main European grid code requirements are outlined here, including also HVDC connections and DC-connected power park modules. The focus is on requirements that are considered particularly relevant for large wind power plants. Afterwards, an outlook and discussion on possible future requirements is provided. This review has been written by members of IEA Wind Task 25, but it does not represent an official viewpoint of the IEA.
Oppdragsgiver
  • EC/FP7 / 609795
  • Norges forskningsråd / 193823
Språk
Engelsk
Forfatter(e)
  • Vrana Til Kristian
  • Flynn Damian
  • Gómez-Lázaro Emilio
  • Kiviluoma Juha
  • Marcel Davy
  • Cutululis Nicolaos Antonio
  • Smith J. Charles
Institusjon(er)
  • SINTEF Energi AS / Energisystemer
  • Ollscoil na hÉireann, Baile Atha Cliath - An Colaiste Ollscoile, Baile Atha Cliath
  • Universidad de Castilla-La Mancha
  • VTT Valtion teknillinen tutkimuslaitos
  • Sveits
  • Danmarks Tekniske Universitet
  • University of Virginia
År
2018
Publisert i
Wiley Interdisciplinary Reviews: Energy and Environment
ISSN
2041-8396
Årgang
7
Hefte nr.
3