Hydrodynamic Analysis of Different Finger Positions in Swimming: A Computational Fluid Dynamics Approach

in Journal of Applied Biomechanics
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  • 1 University of Porto/LABIOMEP
  • 2 University of Beira Interior/CIDESD
  • 3 University of Trás-os-Montes and Alto Douro/CIDESD
  • 4 Nanyang Technological University/CIDESD
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The aim of this research was to numerically clarify the effect of finger spreading and thumb abduction on the hydrodynamic force generated by the hand and forearm during swimming. A computational fluid dynamics (CFD) analysis of a realistic hand and forearm model obtained using a computer tomography scanner was conducted. A mean flow speed of 2 m·s−1 was used to analyze the possible combinations of three finger positions (grouped, partially spread, totally spread), three thumb positions (adducted, partially abducted, totally abducted), three angles of attack (a = 0°, 45°, 90°), and four sweepback angles (y = 0°, 90°, 180°, 270°) to yield a total of 108 simulated situations. The values of the drag coefficient were observed to increase with the angle of attack for all sweepback angles and finger and thumb positions. For y = 0° and 180°, the model with the thumb adducted and with the little finger spread presented higher drag coefficient values for a = 45° and 90°. Lift coefficient values were observed to be very low at a = 0° and 90° for all of the sweepback angles and finger and thumb positions studied, although very similar values are obtained at a = 45°. For y = 0° and 180°, the effect of finger and thumb positions appears to be much most distinct, indicating that having the thumb slightly abducted and the fingers grouped is a preferable position at y = 180°, whereas at y = 0°, having the thumb adducted and fingers slightly spread yielded higher lift values. Results show that finger and thumb positioning in swimming is a determinant of the propulsive force produced during swimming; indeed, this force is dependent on the direction of the flow over the hand and forearm, which changes across the arm’s stroke.

J. Paulo Vilas-Boas, Ricardo J. Fernandes, and Leandro Machado are with the Faculty of Sport, CIFI2D, and Porto Biomechanics Laboratory (LABIOMEP), University of Porto, Porto, Portugal. Rui J. Ramos and Daniel A. Marinho are with the University of Beira Interior, CIDESD, Covilhã, Portugal. António J. Silva and Abel I. Rouboa are with the University of Trás-os-Montes and Alto Douro, CIDESD, Vila Real, Portugal. Tiago M. Barbosa is with the National Institute of Education, Nanyang Technological University, Singapore, and CIDESD.

Address author correspondence to Daniel A. Marinho at dmarinho@ubi.pt.