佩戴标准头盔和气动头盔的优秀公路自行车运动员机械动力和能量成本估算:一种分析方法和数值模拟方法

IF 0.5 Q4 SPORT SCIENCES European Journal of Human Movement Pub Date : 2021-06-30 DOI:10.21134/EURJHM.2021.46.573

Pedro Forte, D. Marinho, T. Barbosa, J. Morais

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引用次数: 1

摘要

本研究的目的是通过数值模拟和分析模型来评估和比较两种不同类型的道路头盔(标准和航空道路头盔)的阻力、机械功率和能量成本。一名优秀的自行车手在比赛自行车上被扫描，他戴着比赛装备和头盔。在11.11 m/s (40 km/h)和20.83 m/s (75 km/h)的速度下进行了计算流体动力学数值模拟，以提取阻力。用分析方法估算了机械功率和能量成本。所选速度和头盔下的阻力在9.93 ~ 66.96 N之间。克服阻力的功率分别为182.19 W和1121.40 W。总功率高低分别为271.05 W和1558.02 W。在不同的速度和头盔下，能量成本估算值在106.89 ~ 381.40 J/m之间。标准头盔的阻力更大，需要更大的动力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Estimation of an elite road cyclist mechanical power and energy cost wearing standard and aero helmets: an analytical procedure and numerical simulations approach

The aim of this study was to assess and compare by numerical simulations and analytical models the resistive forces, mechanical power and energy cost using two different types of road helmets (standard vs aero road helmet). An elite cyclist was scanned on the racing bicycle, wearing his competition gear and helmets. Numerical simulations by Computational Fluid Dynamics were carried-out at 11.11 m/s (40 km/h) and 20.83 m/s (75 km/) to extract the drag force. The mechanical power and energy cost were estimated by analytical procedures. The drag force were between 9.93 N and 66.96 N across the selected speeds and helmets. The power to overcome drag were 182.19 W and 1121.40 W. The total power lower and higher values were 271.05 W and 1558.02 W. The energy cost estimation was between 106.89 J/m and 381.40 J/m across the different speeds and helmets. The standard helmet imposed higher drag and demanded more power.

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