Numerical simulation of the lightning leader development and upward leader initiation for rotating wind turbine

Wanshui Yu, Qingmin Li, Jiyao Zhao, Wah Hoon Siew

Research output: Contribution to journalArticlepeer-review

3 Citations (Scopus)
60 Downloads (Pure)

Abstract

Lightning accidents seriously threaten safe operation of wind turbines because the influence mechanisms of wind turbine rotation on corona and upward leader initiation are, so far, not clear. A three‐dimensional stochastic evolution model of the lightning downward leader was established by combining the dielectric breakdown model and the lightning current shunt method, according to which the charge density distribution of leader branches was determined. The corona
and leader initiation mechanisms of rotating wind turbine were studied based on the 3D drift and diffusion model of ion flow in the neighboring space of a rotating wind turbine. The results show that due to blade rotation, the charged particles are unevenly distributed near the blade tip and the contours are in a strip‐like shape. As the rotating speed increases, the blade tip is more susceptible to initiating corona discharge. Combining the three‐dimensional stochastic development model of the lightning downward leader and ion distribution model near a rotating wind turbine, the initiation direction of the upward leader was analyzed, and in 66% of cases, the initiation direction of the
upward leader on the blade tip was on the back side of the blade rotation.
Original languageEnglish
Article number115
Number of pages19
JournalMachines
Volume10
Issue number2
DOIs
Publication statusPublished - 4 Feb 2022

Keywords

  • rotary wind turbine
  • ion flow distribution
  • stochastic downward leader
  • corona initiation
  • upward leader

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