Three-dimensional Numerical Simulations of Annular Falling Film Wave Dynamics in the Presence of Soluble Surfactants
ORAL
Abstract
Falling film reactors are a key unit operation for the production of surfactants. This work focuses on numerical investigations into the effect of soluble and insoluble surfactants on the wave dynamics of annular falling films. We carry out three-dimensional direct numerical simulations of the film dynamics using a hybrid front-tracking/level-set solver, where surfactant effects are modelled using a couple of convective-diffusion transport equations for the interfacial and bulk species (Shin {\it et al.}, J. Comp. Phys., 359, 409-435, 2018). The influence of surfactant diffusivity, elasticity, and solubility on the wave dynamics, characterised by the shape of the emergent coherent structures, and their speed, is investigated as part of this work.
*We acknowledge gratefully the contribution of Drs Damir Juric and Jalel Chergui (both from LIMSI, CNRS, France), and Dr Seungwon Shin (Hongkik University, South Korea), in terms of code development, and funding from EPSRC (grant EP/K003976/1), and the Royal Academy of Engineering (Research Chair for OKM).
–