运动员姿态对跳台滑雪空中飞行气动特性的影响
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国家自然科学基金项目(11802068),国家重点研发计划项目(2019YFF0302004,2018YFF0300500),国家体育总局体育科学研究所基本科研业务费项目(基本19-06)


Effects of Athlete’s Posture on Aerodynamic Characteristics During Flight in Ski Jumping
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    摘要:

    目的 探讨运动员姿态(包括上半身弯曲角度以及身体与滑雪板夹角)对跳台滑雪空中飞行气动特性的影响。方法 将跳台滑雪运动员与滑雪板作为1个多体系统,采用部分时均(partially averaged Navier-Stokes,PANS)湍流模型,并通过计算流体动力学(computational fluid dynamics,CFD)方法数值模拟,预测不同运动员姿态下跳台滑雪空中飞行空气动力学特性。上半身弯曲角度计算工况包括10°、14°、18°、22°和26°,身体与滑雪板夹角计算工况包括8°、12°、16°、20°和24°。结果 受上半身弯曲角度增大变化的影响,多体系统、运动员以及滑雪板的升力、阻力,滑雪板的俯仰力矩均呈现单调递减趋势,但总升阻比先增大后减小;多体系统的俯仰力矩先减小后增大;运动员的俯仰力矩先微幅增大后减小。受身体与滑雪板夹角增大变化的影响,多体系统以及滑雪板的升力、阻力均先增大后减小再增大,但总升阻比先减小后增大再减小;运动员的升力、阻力以及俯仰力矩均呈现单调递增趋势;多体系统以及滑雪板的俯仰力矩均先增大后减小。上半身弯曲角度对跳台滑雪空中飞行气动特性的影响普遍显著于身体与滑雪板夹角的影响。结论 上半身弯曲角度的优选范围为14°~18°,身体与滑雪板夹角的优选范围为16°~20°。运动员姿态(包括上半身弯曲角度以及身体与滑雪板夹角)对跳台滑雪空中飞行气动特性的影响机制能够为比赛预判与决策提供有效的辅助支持,也为运动员空中飞行稳定性控制与技术训练提供科学指导。

    Abstract:

    Objective To investigate the effects of athlete’s posture (including bending angle of upper body and angle between body and skis) on aerodynamic characteristics during flight in ski jumping. Methods The athlete and skis were regarded as a multi-body system. By using partially averaged Navier-Stokes (PANS) turbulence model and numerical simulation of computational fluid dynamics (CFD), the aerodynamic characteristics during flight under different postures were predicted. The calculation conditions for bending angle of upper body were 10°, 14°, 18°, 22° and 26°, and the calculation conditions of angle between body and skis were 8°, 12°, 16°, 20° and 24°. Results As the bending angle of upper body increased, the lift force and drag force of the multi-body system, the athlete and skis, and the pitch moment of skis all showed a monotonously decreasing trend, but the ratio of total lift force to total drag force increased first and then decreased. Meanwhile, the pitch moment of the multi-body system decreased first and then increased, and the pitch moment of athlete increased slightly and then decreased. As the angle between body and skis increased, the lift force and drag force of the multi-body system and skis increased first, then decreased and then increased, but the ratio of total lift force to total drag force decreased first, then increased and then decreased. Meanwhile, the lift force, drag force and pitch moment of the athlete increased monotonously, and the pitch moment of the multi-body system and the skis increased first and then decreased. The effect of bending angle of upper body on aerodynamic characteristics during flight in ski jumping was generally significantly larger than that of angle between body and skis. Conclusions The optimal range for bending angle of upper body is 14°-18°, and the optimal range of angle between body and skis is 16°-20°. The influence mechanism for bending angle of upper body and angle between body and skis on aerodynamic characteristics during flight in ski jumping can provide effective auxiliary support for on-the-spot prediction and decisionmaking,

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胡齐,刘宇.运动员姿态对跳台滑雪空中飞行气动特性的影响[J].医用生物力学,2021,36(3):407-414

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  • 收稿日期:2020-06-01
  • 最后修改日期:2020-06-16
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  • 在线发布日期: 2021-07-05
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