On the momentum diffusion over multiphase surfaces with meshless methods
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This work investigates the effects of the choice of momentum diffusion operator on the evolution of multiphase fluid systems resolved with Meshless Lagrangian Methods (MLM). Specifically, the effects of a non-zero viscosity gradient at multiphase interfaces are explored. This work shows that both the typical Smoothed Particle Hydrodynamics (SPH) and Generalized Finite Difference (GFD) diffusion operators under-predict the shear divergence at multiphase interfaces. Furthermore, it was shown that larger viscosity ratios increase the significance of this behavior. A multiphase GFD scheme is proposed that makes use of a computationally efficient diffusion operator that accounts for the effects arising from the jump discontinuity in viscosity. This scheme is used to simulate a 3D bubble submerged in a heavier fluid with a density ratio of 2:1 and a dynamic viscosity ratio of 100:1. When comparing the effects of momentum diffusion operators, a discrepancy of 57.2 bubble's ascent velocity.
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