Aerodynamic properties and flow behavior for a badminton shuttlecock with spin at high reynolds numbers

Kenichi Nakagawa, Hiroaki Hasegawa, Masahide Murakami, Shigeru Obayashi

Research output: Contribution to journalConference article

11 Citations (Scopus)

Abstract

The shuttlecock used in the game of badminton has astonishing aerodynamic characteristics. The shuttlecock which has an open conical shape is the smallest ballistic coefficient and exhibits the largest in-flight deceleration of any airborne sporting implement. The ballistic coefficient of a body is a measure of its ability to overcome air resistance in flight and is inversely proportional to the deceleration. To evaluate correctly the forces acting the shuttlecock, it is necessary to know the in-flight properties determined from the aerodynamics. The purpose of this study is to investigate the relationship between aerodynamic properties and flow fields for a shuttlecock with spin rotation at high Reynolds numbers. Particle image velocimetry (PIV) was used to aid in understanding the flow field in the near field of the shuttlecock edge for the wind tunnel test. The effect of shuttlecock deformation on aerodynamic properties was also investigated because it is presumed that aerodynamic forces are affected by the deformation of the shuttlecock skirt. The drag coefficient for the shuttlecock with no gap is significantly smaller than that for the ordinary shuttlecock (with gap). For the ordinary shuttlecock, the air flows through the gap in the shuttlecock skirt, and this flow is related to high aerodynamic drag. That is, the high aerodynamic drag of a badminton shuttlecock is causes by the gap in the shuttlecock skirt.

Original languageEnglish
Pages (from-to)104-109
Number of pages6
JournalProcedia Engineering
Volume34
DOIs
Publication statusPublished - 2012 Jan 1
Event9th Conference of the International Sports Engineering Association, ISEA 2012 - Lowell, MA, United States
Duration: 2012 Jul 92012 Jul 13

Keywords

  • Badminton shuttlecock
  • Drag
  • Flow visualization
  • Spin rotation

ASJC Scopus subject areas

  • Engineering(all)

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