D’Auteuil et al., 2010 - Google Patents
Relevance of similitude parameters for drag reduction in sport aerodynamicsD’Auteuil et al., 2010
View PDF- Document ID
- 17486719973621838374
- Author
- D’Auteuil A
- Larose G
- Zan S
- Publication year
- Publication venue
- Procedia Engineering
External Links
Snippet
It is possible to improve the aerodynamics of an athlete by influencing the location at which the boundary layer transition occurs on the body. The state of the boundary layer and therefore the drag coefficient depend mainly, in the critical Reynolds number range, on the …
- 239000004744 fabric 0 abstract description 31
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Lee et al. | Effect of twist angle on the performance of Savonius wind turbine | |
| Crouch et al. | Dynamic leg-motion and its effect on the aerodynamic performance of cyclists | |
| Marinho et al. | The hydrodynamic study of the swimming gliding: A two-dimensional computational fluid dynamics (CFD) analysis | |
| Moria et al. | Contribution of swimsuits to swimmer’s performance | |
| Chowdhury et al. | Rapid prototyping of high performance sportswear | |
| Chowdhury | Aerodynamics of sports fabrics and garments | |
| Aoki et al. | Aerodynamic characteristics and flow pattern of a golf ball with rotation | |
| Skeide et al. | The significant impact of ribs and small-scale roughness on cylinder drag crisis | |
| Brownlie et al. | Streamlining the time trial apparel of cyclists: the Nike Swift Spin project | |
| D’Auteuil et al. | Relevance of similitude parameters for drag reduction in sport aerodynamics | |
| Gatta et al. | Effect of swim cap model on passive drag | |
| Chan et al. | The numerical investigation on the effects of aspect ratio and cross-sectional shape on the wake structure behind a cantilever | |
| D'auteuil et al. | Wind turbulence in speed skating: measurement, simulation and its effect on aerodynamic drag | |
| Underwood | Aerodynamics of track cycling | |
| Brownlie et al. | The use of vortex generators to reduce the aerodynamic drag of athletic apparel | |
| Mehta | Aerodynamics of sport balls, badminton shuttlecock and javelin | |
| D’Auteuil et al. | The effect of motion on wind tunnel drag measurement for athletes | |
| Higuchi et al. | Aerodynamics of knuckle ball: Flow-structure interaction problem on a pitched baseball without spin | |
| Asai et al. | Flow visualization of downhill ski racers using computational fluid dynamics | |
| Bardal et al. | Testing of fabrics for use in alpine ski competition suits | |
| Spurkland et al. | Low aerodynamic drag suit for cycling-design and testing | |
| Crouch et al. | A quasi-static investigation of the effect of leg position on cyclist aerodynamic drag | |
| Brown et al. | The influence of turbulence on cycling aerodynamics | |
| Chowdhury et al. | An experimental investigation on the aerodynamic drag coefficient and surface roughness properties of sport textiles | |
| Brownlie | Wind tunnels: design considerations in wind tunnel testing of cyclists |