Aerodynamic Drag Between Two Cyclists: OverPressure Push and Effect of Wheel Rotation - Équipe Instrumentation embarquée et systèmes de surveillance intelligents
Communication Dans Un Congrès Année : 2022

Aerodynamic Drag Between Two Cyclists: OverPressure Push and Effect of Wheel Rotation

Résumé

The aerodynamic drag force acting on a cyclist depends on several factors such as speed, wind magnitude, wind angle, and drafting a second cyclist or group of cyclists. To expand knowledge in drag reduction mechanisms associated with drafting conditions, the aerodynamic drag of two identical models of female track cyclists was simulated in static and with simulated wheel rotations through a validated Computational Fluid Dynamics (CFD) approach. Two sets of 11 simulations with and without wheel rotation at a wheel-to-wheel distance between the two bikes ranging from 5 centimeters to 5 meters were carried out. Results show that wheel rotation on an isolated cyclist model with his bike and equipment has a 3% larger drag than the same model without wheel rotation. Furthermore, at the usual wheel-to-wheel distance of 0.15m, two cyclists one behind the other show a 3.5% drag reduction for the leading cyclist and 35.2% drag reduction for the trailing cyclist compared to an isolated one. The overall drag is higher with wheel rotation than without it but the gain from OverPressure Push (OPP) and drafting stays similar. These results suggest the implementation of wheel rotation and accurate 3D geometry in future CFD cycling models to make them more realistic.
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Dates et versions

hal-04669042 , version 1 (09-08-2024)

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  • HAL Id : hal-04669042 , version 1

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Sébastien Terol, Sébastien Ricciardi, Sylvain Neyroud, Georges Soto-Romero, Antony Costes. Aerodynamic Drag Between Two Cyclists: OverPressure Push and Effect of Wheel Rotation. Science and Cycling 2022, Anton van Gerwen, Jun 2022, Copenhagen, Denmark. ⟨hal-04669042⟩
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