http://www.comsol.com/community/forums/general/thread/33033/ Most recent forum messages Fri, 16 Nov 2012 18:36:29 +0000 http://www.comsol.com/shared/images/logos/comsol_logo.gif http://www.comsol.com/community/forums/general/thread/33033/ http://www.comsol.com/community/forums/general/thread/33033/#p90555 You can make the transport diffusion coefficient a function of the phase field variable. With a low diffusion in air the species is more likely to stay in the droplets.<br /> <br /> Nagi Elabbasi<br /> Veryst Engineering Fri, 16 Nov 2012 18:36:29 +0000 33033.1353090989.90555 http://www.comsol.com/community/forums/general/thread/33033/#p90529 I'm working on a simulation of two droplets in air coalescing into one combined droplet in which I want to follow in time the mass transport of a species C in one droplet into the coalesced droplet. The species has to remain into the droplet phase and not diffuse into the air.<br /> <br /> I'm using the Laminar two-phase flow (phase field) to describe the coalescing of the two droplets in air with a time dependent simulation. This part of the model is working quite well both in 2d and 3d.<br /> Combining this model in the same study with the transport in diluted species (convection &amp; diffusion) physics to describe the mass transport of an species C with start concentration C0 from the single one droplet into the combined coalesced droplet I run into problems.<br /> The main problem is that the species C does not remain in droplet phase but also diffuses into the surrounding air.<br /> <br /> In my opinion, I somehow have to use the phase field variable phipf with value=-1 to track the moving liquid-air interface to prevent the transport of the species from the droplet to the air.<br /> <br /> Does anybody have any suggestions?<br /> Fri, 16 Nov 2012 02:04:08 +0000 33033.1353031448.90529