通过计算流体动力学评估健全和截肢自行车手的空气动力学性能。

Assessment of Able-Bodied and Amputee Cyclists' Aerodynamics by Computational Fluid Dynamics.

作者信息

Forte Pedro, Morais Jorge E, Barbosa Tiago M, Marinho Daniel A

机构信息

Department of Sports, Douro Higher Institute of Educational Sciences, Penafiel, Portugal.

Department of Sports Sciences, Instituto Politécnico de Bragança, Bragança, Portugal.

出版信息

Front Bioeng Biotechnol. 2021 Mar 11;9:644566. doi: 10.3389/fbioe.2021.644566. eCollection 2021.

DOI:10.3389/fbioe.2021.644566

PMID:33777915

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7991374/

Abstract

The aim of this study was to compare the aerodynamics of able-bodied and amputee cyclists by computational fluid dynamics. The cyclists' geometry was obtained by a 3D scanner. Three CAD models were created as able-bodied, transtibial (Tt), and transradial (Tr) amputees. Numerical simulations were conducted up to 13 m/s with increments of 1 m/s to assess drag force. The drag ranged between 0.36 and 39.25 N for the able-bodied model, 0.36-43.78 for the Tr model and 0.37-41.39 N for the Tt model. The pressure drag ranged between 0.20 and 22.94 N for the normal model, 0.21-28.61 for the Tr model and 0.23-28.02 N for the Tt model. The viscous drag ranged between 0.16 and 15.31 N for the normal model, 0.15-15.17 for the Tr model and 0.14-13.38 N for the Tt model. The rolling resistance (RR) was higher on the able-bodied (2.23 N), followed by the Tr (2.20 N) and Tt (2.17 N) models. As a conclusion, the able-bodied cyclist showed less drag, followed by the Tt and Tr models, respectively. The RR presented higher values in the able-bodied, followed by the Tr and Tt models.

摘要

本研究的目的是通过计算流体动力学比较健全人和截肢自行车运动员的空气动力学特性。通过3D扫描仪获取自行车运动员的几何形状。创建了三个CAD模型，分别为健全人、经胫截肢（Tt）和经桡截肢（Tr）的截肢者模型。以1m/s的增量进行了高达13m/s的数值模拟，以评估阻力。健全人模型的阻力在0.36至39.25N之间，Tr模型为0.36 - 43.78N，Tt模型为0.37 - 41.39N。正常模型的压力阻力在0.20至22.94N之间，Tr模型为0.21 - 28.61N，Tt模型为0.23 - 28.02N。正常模型的粘性阻力在0.16至15.31N之间，Tr模型为0.15 - 15.17N，Tt模型为0.14 - 13.38N。滚动阻力（RR）在健全人模型上更高（2.23N），其次是Tr（2.20N）和Tt（2.17N）模型。结论是，健全的自行车运动员阻力较小，其次分别是Tt和Tr模型。RR在健全人模型中呈现更高的值，其次是Tr和Tt模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/54ae/7991374/43da70b4e90f/fbioe-09-644566-g001.jpg

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通过计算流体动力学评估健全和截肢自行车手的空气动力学性能。

Assessment of Able-Bodied and Amputee Cyclists' Aerodynamics by Computational Fluid Dynamics.

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