CFD simulations of the flow around a cyclist subjected to crosswinds: Fid-Bau Portal

CFD simulations of the flow around a cyclist subjected to crosswinds

Fintelman, D.M. / Hemida, H. / Sterling, M. / Li, F.-X.

Abstract For the first time, an extensive numerical study of the effect of crosswinds on the flow around a cyclist on a bicycle with stationary wheels has been undertaken for crosswind (yaw) angles ranging from 0° to 90°. The flow field and the aerodynamic forces have been obtained using three numerical techniques: Reynolds Averaged Navier Stokes (RANS), Detached Eddy Simulation (DES) and Large Eddy Simulation (LES). RANS simulations have been undertaken for all the range of yaw angles to provide a general insight of the flow around a cyclist, whilst DES and LES have been undertaken at 15° yaw angle in order to investigate the time-varying flow physics in detail. The aerodynamic forces have been compared with a series of wind tunnel experiments. The RANS results showed the development of large flow separation around the bicycle with increasing yaw angles. The instantaneous flow structures and the auto-spectral densities of the time histories of the force coefficients are identified and revealed that the DES and LES turbulence models are able to predict the dominant frequencies found in the physical experiments. This work provides an improved understanding of the flow characteristics around a cyclist in crosswinds that will hopefully help to improve the safety of cyclists.

Highlights • The flow around a cyclist on a bicycle at different crosswinds is investigated. • The CFD results are compared with experimental data. • Different turbulence models are compared. • Flow structures around a cyclist in crosswinds are explored.