Aerospace (Dec 2022)

Numerical Simulation of Unsteady Fluid Parameters for Maglev Flight Wind Tunnel Design

  • Cheng Fu,
  • Xinglong Gao,
  • Yunqiang Sun,
  • Jie Kou,
  • Dachuan Xu,
  • Jingxiang Chen

DOI
https://doi.org/10.3390/aerospace10010034
Journal volume & issue
Vol. 10, no. 1
p. 34

Abstract

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The maglev flight tunnel is a novel conceptual aerodynamics test facility, in which the complicated aerodynamic characteristics caused by the high-speed translation of a moving model in a long, straight, closed tunnel, and wave propagation and aero-structure single-way coupling problems can be investigated. The unsteady characteristics originating from a high-speed model in the maglev flight tunnel were investigated and evaluated with regard to aero–structure coupling. The new conservation element and solution element method was used to solve the 3-D compressible fluid surrounding a moving model in a tunnel, and the variations in the aerodynamic parameters, wave propagation characteristics, and pressure distribution in the tunnel were obtained. The results provide support for key technical problems, such as a wave-absorbing construction design of the maglev flight wind tunnel.

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