Drop breakup in the flow through fixed fiber beds: An experimental and computational investigation

Abstract: Dilute fixed fiber beds provide a model system for studying drop dynamics in disordered flows. Fluctuations about the mean uniform velocity are generated by fiber elements within the media, and the disturbance velocities far from any single fiber ͑at distances on the order of the pore size͒ have been predicted to be strong in terms of drop deformation and breakup by Mosler and Shaqfeh ͓Phys. Fluids 9, 5 ͑1997͔͒. In this work, we focus on the importance of near-field interactions, or the flow close to individua… Show more

“…Instead, one expects shear breakup combined with snapoff to be the dominant mechanism over a significant range of flow conditions. 14,15 Moreover, and whatever the breakup mechanism considered, the bubble-size distribution in such systems is still unknown.…”

Bubbly flow through fixed beds: Microscale experiments in the dilute regime and modeling

“…Instead, one expects shear breakup combined with snapoff to be the dominant mechanism over a significant range of flow conditions. 14,15 Moreover, and whatever the breakup mechanism considered, the bubble-size distribution in such systems is still unknown.…”

Bubbly flow through fixed beds: Microscale experiments in the dilute regime and modeling

“…The time-dependent recovery of an elongated drop in a quiescent fluid has also been considered [2,7]. In conjunction with experimental studies, theoretical modeling of drop shape dynamics has also been an active area of research [5,[8][9][10][11]. Here, the methods of analysis often involve boundary-integral-type techniques.…”

Shape relaxation of an elongated viscous drop

“…The ''moving grid'' front-tracking technique was used by Quan and Schmidt (2006) for the simulation of a liquid droplet in a gaseous current. An implementation of the ''marker point'' front-tracking method (Cristini et al, 1998) was compared to experimental results for droplet breakup by Patel et al (2003).…”

Validated simulation of droplet sedimentation with finite-element and level-set methods