AIP Advances (Jan 2024)

Numerical simulation of mixing effect of compressed air–foam gas–liquid mixer

  • Bing Bai,
  • Xiaodong Xu,
  • Wenfang Liu,
  • Panpan Xu,
  • Zhijian Tian,
  • Jun Zhang,
  • Yun Ji

DOI
https://doi.org/10.1063/5.0184061
Journal volume & issue
Vol. 14, no. 1
pp. 015017 – 015017-10

Abstract

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This article investigated the effect of geometric structural parameters on flow patterns and pressure drops and gas–liquid mixing effects of gas–liquid mixing devices. The computational fluid dynamics software FLUENT was used to calculate the airflow inside the mixer of a compressed air–foam gas–liquid mixing device with different cone angles, foam flow rates, air inlet inclination angles, and pipeline diameters. The results obtained are the pressure distribution, the liquid volume fraction, and the liquid phase streamlines in the mixing device. The numerical simulation results showed that for a gas–liquid mixing device, the optimal inlet inclination angle was 60°–70°, and the mixing effect of an equal diameter mixer was better than that of a variable diameter mixer, but it would reduce the mixing efficiency of the air and foam. The optimal pipeline diameter of the conveying pipeline was 190 mm, and the optimal cone angle of the mixing device was 55°.