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  • 标题:Shock wave mitigation using zig-zag structures and cylindrical obstructions
  • 本地全文:下载
  • 作者:Arun Kumar R ; Vaibhav Pathak
  • 期刊名称:Defence Technology
  • 印刷版ISSN:2214-9147
  • 出版年度:2021
  • 卷号:17
  • 期号:6
  • 页码:1840-1851
  • DOI:10.1016/j.dt.2020.10.001
  • 语种:English
  • 出版社:Elsevier B.V.
  • 摘要:AbstractThe present study focuses on the mitigation of shock wave using novel geometric passages in the flow field. The strategy is to produce multiple shock reflections and diffractions in the passage with minimum flow obstruction, which in turn is expected to reduce the shock wave strength at the target location. In the present study the interaction of a plane shock front (generated from a shock tube) with various geometric designs such as, 1) zig-zag geometric passage, 2) staggered cylindrical obstructions and 3) zig-zag passage with cylindrical obstructions have been investigated using computational technique. It is seen from the numerical simulation that, among the various designs, the maximum shock attenuation is produced by the zig-zag passage with cylindrical obstructions which is then followed by zig-zag passage and staggered cylindrical obstructions. A comprehensive investigation on the shock wave reflection and diffraction phenomena happening in the proposed complex passages have also been carried out. In the new zig-zag design, the initial shock wave undergoes shock wave reflection and diffraction process which swaps alternatively as the shock front moves from one turn to the other turn. This cyclic shock reflection and diffraction process helps in diffusing the shock wave energy with practically no obstruction to the flow field. It is found that by combining the shock attenuation ability of zig-zag passage (using shock reflection and diffraction) with the shock attenuation ability of cylindrical blocks (by flow obstruction), a drastic attenuation in shock strength can be achieved with moderate level of flow blocking.
  • 关键词:Blast wave mitigation;Blockage ratio;Geometric obstructions;Shock wave reflection and diffraction;Zig-zag structure
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