We model a reaction-diffusion-convection system which comprises a liquid drop containing solutes that undergo an Oregonator reaction producing chemical waves. The reactants are taken to have surfactant properties so that the variation in their concentrations induces Marangoni flows at the drop interface which lead to a displacement of the drop. We discuss the mechanism by which the chemical-mechanical coupling leads to drop motion and the way in which the net displacement of the drop depends on the strength of the surfactant action. The equations of motion are solved using a lattice Boltzmann approach
We perform a computer simulation of the reaction-diffusion and convection that takes place in Raylei...
This paper deals with a numerical investigation about the bubble and drop dynamics under different f...
We use a three-dimensional lattice Boltzmann model to investigate the spreading of mesoscopic drople...
We numerically study the behavior of self-propelled liquid droplets whose motion is triggered by a M...
We present a free energy lattice Boltzmann approach to modelling the dynamics of liquid drops on che...
Video images of drops colliding with solid surfaces shown by Rioboo et al. (2002) reveal that, for l...
The lattice Boltzmann method is an efficient computational fluid dynamics technique that can accurat...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
In this article, a lattice Boltzmann model for two immiscible fluids with same density but a large ...
To understand how thermocapillary forces manipulate droplet motion in microfluidic channels, we deve...
We perform a joint numerical and experimental study to systematically characterize the motion of 30 ...
The three-dimensional dynamics of droplets on inclined and vertical walls in a gravity field is simu...
Evaporation phenomena are having a resurgent interest in the recent years thanks to new techniques ...
To understand how thermocapillary forces manipulate the droplet motion in a confined microchannel, a...
International audienceActive droplets swim as a result of the nonlinear advective coupling of the di...
We perform a computer simulation of the reaction-diffusion and convection that takes place in Raylei...
This paper deals with a numerical investigation about the bubble and drop dynamics under different f...
We use a three-dimensional lattice Boltzmann model to investigate the spreading of mesoscopic drople...
We numerically study the behavior of self-propelled liquid droplets whose motion is triggered by a M...
We present a free energy lattice Boltzmann approach to modelling the dynamics of liquid drops on che...
Video images of drops colliding with solid surfaces shown by Rioboo et al. (2002) reveal that, for l...
The lattice Boltzmann method is an efficient computational fluid dynamics technique that can accurat...
We compare numerical and experimental results exploring the behaviour of liquid drops moving across ...
In this article, a lattice Boltzmann model for two immiscible fluids with same density but a large ...
To understand how thermocapillary forces manipulate droplet motion in microfluidic channels, we deve...
We perform a joint numerical and experimental study to systematically characterize the motion of 30 ...
The three-dimensional dynamics of droplets on inclined and vertical walls in a gravity field is simu...
Evaporation phenomena are having a resurgent interest in the recent years thanks to new techniques ...
To understand how thermocapillary forces manipulate the droplet motion in a confined microchannel, a...
International audienceActive droplets swim as a result of the nonlinear advective coupling of the di...
We perform a computer simulation of the reaction-diffusion and convection that takes place in Raylei...
This paper deals with a numerical investigation about the bubble and drop dynamics under different f...
We use a three-dimensional lattice Boltzmann model to investigate the spreading of mesoscopic drople...