Direct Numerical Simulations of Surfactant Effects on Heat and/or Mass Transfer Around a Bubble

Contaminants or surfactants are involved in a wide range of environmental and industrial applications and their presence can affect significantly both the dynamics and transfer phenomena around bubbles and droplets. In this study, a front-tracking method is presented and assessed in order to model accurately surface tension forces for capillary driven flows and heat and mass transfer around a bubble rising in a continuous liquid phase. The effects of Marangoni stresses on the bubble dynamics on the one hand and on the Sherwood or Nusselt number on the other are investigated as a first step towards improve the understanding of heat and/or mass transfer in contaminated bubble swarms.