Aerodynamic drag in cycling: methods of assessment |
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Authors: | Pierre Debraux Frederic Grappe Aneliya V Manolova William Bertucci |
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Institution: | 1. LACM-DTI (EA 4302, LRC CEA 05354) UFR STAPS, Université de Champagne-Ardenne , Reims, France pierre.debraux@sci-sport.com;3. Département de Recherche en Prévention , Innovation et Veille Technico-Sportive (EA 4267 - 2SBP), UFR STAPS, Université de Franche-Comté , Besan?on, France;4. LACM-DTI (EA 4302, LRC CEA 05354) UFR STAPS, Université de Champagne-Ardenne , Reims, France |
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Abstract: | When cycling on level ground at a speed greater than 14 m/s, aerodynamic drag is the most important resistive force. About 90% of the total mechanical power output is necessary to overcome it. Aerodynamic drag is mainly affected by the effective frontal area which is the product of the projected frontal area and the coefficient of drag. The effective frontal area represents the position of the cyclist on the bicycle and the aerodynamics of the cyclist-bicycle system in this position. In order to optimise performance, estimation of these parameters is necessary. The aim of this study is to describe and comment on the methods used during the last 30 years for the evaluation of the effective frontal area and the projected frontal area in cycling, in both laboratory and actual conditions. Most of the field methods are not expensive and can be realised with few materials, providing valid results in comparison with the reference method in aerodynamics, the wind tunnel. Finally, knowledge of these parameters can be useful in practice or to create theoretical models of cycling performance. |
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Keywords: | Aerodynamic drag coefficient of drag cycling projected frontal area theoretical model |
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