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Droplet Breakup Regime in a Cross-Junction Device with Lateral Obstacles 被引量:4

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摘要 Numerical simulation using Ansys Fluent code is performed,to investigate droplet generation in cross-junction based VOF method.Droplets of water are generated by the shear stress applied by continuous phase(oil),two configurations of cross-junction are suggested;the first is a simple model no modification is performed at the outer channel,while the second model is characterized by a lateral obstacle.we study the effect of velocity ratio,viscous parameter,interfacial tension,flow condition on droplet size and frequency,the effect of lateral obstacles on droplets generation is also focused and analysed.The numerical simulations showed that the velocity ratio and interfacial tension play a significant role in determining the droplet breakup and non-breakup.On the other side,the increase of flow rate ratio can be effectively used to decrease the droplet size.In addition,droplets produced in cross-junction with lateral obstacles are generally found to be larger than that produced with the first model.Moreover,the frequency of droplet production was increasing by increasing of flow rate ratio.The numerical results show very good agreements with previous numerical and experimental works for the growth of droplet breakup,size and frequency.
出处 《Fluid Dynamics & Materials Processing》 EI 2019年第5期545-555,共11页 流体力学与材料加工(英文)
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  • 1刘秀娟,周宏平,郑加强.农药雾滴飘移控制技术研究进展[J].农业工程学报,2005,21(1):186-190. 被引量:71
  • 2余泳昌,王保华,史景钊,李祥付.手动喷雾器组合充电式静电喷雾装置的雾化效果试验[J].农业工程学报,2005,21(12):85-88. 被引量:17
  • 3Tuck C R, Butler Ellis M C, Miller P C H. Techniques for measurement of droplet size and velocity distributions in agricultural sprays[J]. Crop Protection, 1997, 16 (7): 619 -628.
  • 4Gabriel N L, Soo-Young N. Development of electrostatic pressure-swirl nozzle for agricultural applications[J]. Journal of Electrostatics, 2003, 57 (2): 129-142.
  • 5Chen Xiaopeng, Cheng Jinsheng, Yin Xiezhen. Measurements of drop velocity in electrospray by PIV [A]. Optical technology and image processing for fluids and solids diagnostics 2002[C]. Beijing: The International Society for Optical Engineering, 2003.181 - 187.
  • 6Law S E, Bailey A G. Perturbations of charged droplet trajectories caused by induced target corona: LDA analysis [J]. IEEE Transactions on Industry Applications, 1984, 20 (6): 1613-1622.
  • 7Thompson N, Ley A J. Estimating spray drift using a random-walk model of evaporating drops[J]. J.Agric Eng Res, 1983, 28: 418-435.
  • 8Miller P C H, Hadfield D J. A simulation Of the spray drift from hydraulic nozzles [J]. J Agric EngRes, 1989, 42:135 - 147.
  • 9Smith R W, Miller P C H. Drift predictions in the near nozzle region of a flat fan spray [J]. J Agric Eng Res, 1994, 59: 111-120.
  • 10Mao T, Kuhn D, Tran H. Spread and rebound of liquid droplets upon impact on flat surfaces [J]. AIChE Journal,1997, 43 (9): 2169-2179.

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