Interface instabilities in Faraday waves of two-layer liquids with free surface

Abstract: For a fluid system with an interface between two-layer liquids and a free surface, there exist two series of natural frequencies. Under vertical excitations, the interface and the free surface can be excited separately or simultaneously. Laboratory experiments were conducted to excite the first- and second-mode Faraday waves on the free surface, which forced the in-phase motion of the interface. The experimental data were used to validate the extended numerical model NEWTANK. The secondary surface instability … Show more

“…They also discussed the effect of individual depth of layers on Faraday instability, in which lower layer depth does not play any role after a certain limit (Li et al 2018c). Liu and Lin (2022) have done similar experiments along with three-dimensional numerical simulations on a three-fluid system. They observed that it is possible to have two different modes at either interface, which can lead to reverse flow between the fluids and leads to Kelvin-Helmholtz type (KH-type) instability.…”

Effect of depth ratio on Faraday instability in a binary liquid system

“…They also discussed the effect of individual depth of layers on Faraday instability, in which lower layer depth does not play any role after a certain limit (Li et al 2018c). Liu and Lin (2022) have done similar experiments along with three-dimensional numerical simulations on a three-fluid system. They observed that it is possible to have two different modes at either interface, which can lead to reverse flow between the fluids and leads to Kelvin-Helmholtz type (KH-type) instability.…”

Effect of depth ratio on Faraday instability in a binary liquid system

Numerical simulations of faraday waves in cylindrical and hexagonal tanks based on MPS method

A numerical analysis of sloshing dynamics of two-layer liquid with a free surface