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diffusion convection issues
Posted 1 juil. 2014, 21:31 UTC−4 Fluid & Heat, Microfluidics Version 4.3b, Version 5.0 12 Replies
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Hi,
I want to simulate the concentration variation of nano-particle in a micro-fluid channel under magnetic field, and to show nano-particle will build up in the region near the magnet. I have built a modeling including transport of diluted species modeling. But the result is not similar to what happened in my experiment. That is, although I can see the concentration variation near the magnet, in the modeling, nano-particles does not have a high build-up that happened in the experiments. The values of the concentration in the modeling just vary from 0.05 to 0.08.
I will briefly introduce the modeling. This modeling includes three modules, magnetic field, laminar flow and transport of diluted species.
For the magnetic field, the big rectangle beside the T-shaped channel is a permanent magnet, which will produce stable magnetic field. Thus, the magnetic field in every point is fixed and then independent of the other two modules, so that we can solve it separately.
Then go to the laminar flow. Actually, the fluid flowing into the T-shaped channel is the ferrofluid, not pure water. I figure you are not very familiar to ferrofluid. Here we go: A ferrofluid is a liquid that gets strongly magnetized in the presence of an external applied magnetic field. Ferrofluids contain magnetic nanoparticles suspended in a carrier fluid usually an organic solvent or water. In general, the nanoparticles in a ferrofluid are suspended by Brownian motion and generally will not settle under standard conditions. However, if applied a magnetic field, some nanoparticles will be attracted by magnetic force. That's why ferrofluid will build up in the area near magnet. And the velocity of those nanoparticles has two components, one is the flow velocity and the other is the velocity induced by magnet.
What you can see in the transport of diluted species module is that I have redefined the nanoparticle velocity as flow velocity plus the velocity induced by magnet. Obviously, the concentration we care is that of nanoparticles. The initial concentration of ferrofluid is 0.05, which means the nanoparticles will take 5 percent of ferrofluid.
I know it's too long. Thanks for your patience. I have checked the modeling for several times and make sure everything should be OK. I don't understand why the transport of diluted species module cannot show the "high" concentration variation well? Is anyone willing to help me? Thank you.
Attached is the modeling.
Regards,
Yilong
I want to simulate the concentration variation of nano-particle in a micro-fluid channel under magnetic field, and to show nano-particle will build up in the region near the magnet. I have built a modeling including transport of diluted species modeling. But the result is not similar to what happened in my experiment. That is, although I can see the concentration variation near the magnet, in the modeling, nano-particles does not have a high build-up that happened in the experiments. The values of the concentration in the modeling just vary from 0.05 to 0.08.
I will briefly introduce the modeling. This modeling includes three modules, magnetic field, laminar flow and transport of diluted species.
For the magnetic field, the big rectangle beside the T-shaped channel is a permanent magnet, which will produce stable magnetic field. Thus, the magnetic field in every point is fixed and then independent of the other two modules, so that we can solve it separately.
Then go to the laminar flow. Actually, the fluid flowing into the T-shaped channel is the ferrofluid, not pure water. I figure you are not very familiar to ferrofluid. Here we go: A ferrofluid is a liquid that gets strongly magnetized in the presence of an external applied magnetic field. Ferrofluids contain magnetic nanoparticles suspended in a carrier fluid usually an organic solvent or water. In general, the nanoparticles in a ferrofluid are suspended by Brownian motion and generally will not settle under standard conditions. However, if applied a magnetic field, some nanoparticles will be attracted by magnetic force. That's why ferrofluid will build up in the area near magnet. And the velocity of those nanoparticles has two components, one is the flow velocity and the other is the velocity induced by magnet.
What you can see in the transport of diluted species module is that I have redefined the nanoparticle velocity as flow velocity plus the velocity induced by magnet. Obviously, the concentration we care is that of nanoparticles. The initial concentration of ferrofluid is 0.05, which means the nanoparticles will take 5 percent of ferrofluid.
I know it's too long. Thanks for your patience. I have checked the modeling for several times and make sure everything should be OK. I don't understand why the transport of diluted species module cannot show the "high" concentration variation well? Is anyone willing to help me? Thank you.
Attached is the modeling.
Regards,
Yilong
Attachments:
12 Replies Last Post 23 oct. 2014, 09:49 UTC−4