English

Simulating surfactant effects in phase-transforming fluids

Fluid Dynamics 2026-03-25 v2 Computational Physics

Abstract

Surfactants are critical in natural processes and engineering, but measuring their concentrations in non-equilibrium conditions and in the presence of flow is difficult. Therefore, computational methods are a key tool for improving our understanding. Predicting the effect of surfactants on liquid-vapor transformations is particularly challenging due to (1) simultaneous mass transfer, non-equilibrium thermodynamics and Marangoni stresses, and (2) the phenomenological assumptions underlying many liquid-vapor phase-change models. Starting from the Navier-Stokes-Korteweg equations, a first-principles approach to liquid-vapor phase transformations, we developed a model of liquid-vapor flows with surfactants. We performed simulations of bubbles under equilibrium and liquid-vapor interface oscillations to demonstrate that the model successfully reproduces surfactant-mediated reductions in surface tension. We also investigated the mechanisms whereby surfactant affects bubble coalescence and condensation. Overall, this work provides a new framework for studying the effect of surfactants on liquid-vapor transformations and suggests multiple areas for future research, including the impact of complex surface chemistries on flow around bubbles and the acoustic response of bubbles with surfactants.

Keywords

Cite

@article{arxiv.2512.09140,
  title  = {Simulating surfactant effects in phase-transforming fluids},
  author = {Keyu Feng and Saikat Mukherjee and Tianyi Hu and Hector Gomez},
  journal= {arXiv preprint arXiv:2512.09140},
  year   = {2026}
}
R2 v1 2026-07-01T08:18:00.937Z