A front tracking/ghost fluid method was used to simulate fluid interfaces in a shock–bubble interaction problem. The method captures fluid interfaces, using explicit front-tracking and defines interface conditions, using the ghost-fluid method. In order to demonstrate the accuracy and the capability tracking of the approach used, an air-helium and anair-R22 shock-bubble interaction cases were simulated. The computational results were compared with reliable experimental and computational studies, showing close agreements.
Razmi, A., Taeibi-Rahni, M., Massah, H. R., Terashima, H., & Moezzi, H. (2019). Computational Simulation of Shock-Bubble Interaction, using a Front-Tracking/Ghost Fluid Method. Journal of Applied Fluid Mechanics, 12(2), 631-645. doi: 10.29252/jafm.12.02.28325
MLA
A. Razmi; M. Taeibi-Rahni; H. R. Massah; H. Terashima; H. Moezzi. "Computational Simulation of Shock-Bubble Interaction, using a Front-Tracking/Ghost Fluid Method", Journal of Applied Fluid Mechanics, 12, 2, 2019, 631-645. doi: 10.29252/jafm.12.02.28325
HARVARD
Razmi, A., Taeibi-Rahni, M., Massah, H. R., Terashima, H., Moezzi, H. (2019). 'Computational Simulation of Shock-Bubble Interaction, using a Front-Tracking/Ghost Fluid Method', Journal of Applied Fluid Mechanics, 12(2), pp. 631-645. doi: 10.29252/jafm.12.02.28325
VANCOUVER
Razmi, A., Taeibi-Rahni, M., Massah, H. R., Terashima, H., Moezzi, H. Computational Simulation of Shock-Bubble Interaction, using a Front-Tracking/Ghost Fluid Method. Journal of Applied Fluid Mechanics, 2019; 12(2): 631-645. doi: 10.29252/jafm.12.02.28325
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