Bubbles from an inclined water jet arise from destabilization of waves on the impact cavity, caused by a shear layer due to asymmetric flow detachment.
Ni, Deformation and breakup of bubbles and drops in turbulence, Annual Review of Fluid Mechanics56, 319 (2024)
3 Pith papers cite this work. Polarity classification is still indexing.
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Decomposing turbulent flow into outer and inner fields yields an analytical model that reproduces drop breakup statistics from direct numerical simulations and links turbulence intermittency to memoryless breakup.
Physics-constrained ML with a fractal prior outperforms purely data-driven models for subgrid interfacial area density in corrugation regimes of multiphase flows but shows no gain in fragmentation regimes.
citing papers explorer
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Air entrainment by an inclined smooth water jet
Bubbles from an inclined water jet arise from destabilization of waves on the impact cavity, caused by a shear layer due to asymmetric flow detachment.
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Causal mechanisms of drop breakup in turbulent flows
Decomposing turbulent flow into outer and inner fields yields an analytical model that reproduces drop breakup statistics from direct numerical simulations and links turbulence intermittency to memoryless breakup.
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Learning subgrid interfacial area in two-phase flows with regime-dependent inductive biases
Physics-constrained ML with a fractal prior outperforms purely data-driven models for subgrid interfacial area density in corrugation regimes of multiphase flows but shows no gain in fragmentation regimes.