Modelling ternary fluid flows with free energy lattice Boltzmann method
By: Halim Kusumaatmaja
From: U. Durham, UK
At: Online - Zoom (https://videoconf-colibri.zoom.us/j/85221054218)
[2021-01-21]
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I will present a free energy lattice Boltzmann approach to simulate multicomponent fluid flows. Focusing on ternary fluid systems, I will discuss models where the density is the same for all fluids [1], and where high density ratios between the liquid and gas components can be achieved [2]. I will then discuss several applications. First, I will discuss the dynamics of drops moving across liquid infused surfaces [3,4]. These are liquid repellent surfaces made by infusing a lubricant into porous or rough solid surfaces. Second, I will present collision dynamics between two immiscible drops [2]. We are able to capture bouncing, adhesive and insertive regimes, in agreement with experimental observations. Third, I will show our numerical study on generating emulsion droplets using a microfluidic channel [5]. I will demonstrate the rich morphologies that can be achieved by varying the fluid surface tensions and flow rates.References:[1] C. Semprebon et al., Physical Review E 93, 033305 (2016).[2] M. Wörhwag et al., Physical Review Letters 120, 234501 (2018).[3] M. S. Sadullah et al., Langmuir 34, 8112 (2018).[4] M. S. Sadullah et al., Communications Physics 3, 166 (2020)[5] N. Wang et al., Journal of Fluid Mechanics 895, A22 (2020).
Project UID/FIS/00618/2013