不同接缝角度和速度下板球的 CFD 和风洞研究

Magesh Sooraj P U, Nallavan G
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引用次数: 0

摘要

本研究采用计算和实验方法进行比较分析,深入研究了板球上的流动模式。我们使用了 4 个板球,它们分别是杜克斯板球、SG 板球、杜克斯 3d 打印板球和 SG 打印板球。在亚音速风洞中,比较所有板球在 0°、30°、45°、60° 和 90°接缝角度下的风洞实验值。通过计算模拟和实验观察,分析了接缝角度和速度对板球的影响。通过实验数据成功验证了计算模型得出的结果,肯定了计算方法在预测空气动力学特性方面的可靠性。流动可视化技术进一步证实了这些发现,突出了阻力、接缝角、反向摆动、流动可视化和计算流体动力学(CFD)等关键词在理解板球空气动力学方面的重要性。总之,这项研究通过考虑接缝角、速度和板球空气动力学行为之间的相互作用,为优化保龄球策略提供了宝贵的见解。关键词:球阻力分析、反向挥杆分析、CFD 分析、板球分析。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CFD and Wind Tunnel Study on Cricket Ball at Different Seam Angle and Velocity
This study delves into the intriguing investigation of flow patterns over a cricket ball, employing both computational and experimental methods for a comparative analysis. The work explores about variation of velocities in different angles, here we have used as 4 cricket balls they are dukes cricket balls, SG cricket balls, dukes 3d printed cricket ball and SG printed cricket ball. While comparing all the cricket balls it shows values in the wind tunnel experiment in seam angles of 0°,30°,45°,60°& 90° in a subsonic wind tunnel. Both computational simulations and experimental observations were conducted to analyze the impact of seam angles and velocities on the cricket balls. The results obtained from computational models were successfully validated through experimental data, affirming the reliability of the computational approach in predicting aerodynamic characteristics. Flow visualization techniques further confirm these findings, highlighting the significance of keywords such as drag, seam angles, reverse swing, flow visualization, and computational fluid dynamics (CFD) in understanding the aerodynamics of cricket balls. Overall, this research provides valuable insights into optimizing bowling strategies by considering the interaction between seam angles, velocities, and aerodynamic behavior of cricket balls. Keyword: Ball drag analysis, Reverse swing analysis, CFD analysis, Cricket ball analysis.
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