Research 2nd year: Difference between revisions

From Intelligent Materials and Systems Lab

No edit summary
No edit summary
Line 2: Line 2:


In start we used the micro-mixer model which is assumed as a slurry chamber, and step wise introduced another micro-mixer for second slurry chamber. The first problem that arise is the coupling of both chambers in a way that both mixers should be moving but because of some overlapped boundary conditions only one mixers was moving.
In start we used the micro-mixer model which is assumed as a slurry chamber, and step wise introduced another micro-mixer for second slurry chamber. The first problem that arise is the coupling of both chambers in a way that both mixers should be moving but because of some overlapped boundary conditions only one mixers was moving.
[[File:Untitled1.png|400px]]
[[File:Untitled1.png|400dpi]]
[[File:Untitled.png|400px]]
[[File:Untitled.png|400dpi]]

Revision as of 18:06, 3 November 2017

The idea for further conducted simulations begins with the introducing convection phenomenon in the slurry chambers. Instead of introducing a new physics to our previous modeled geometry we started a new model of micro-mixer with inlets and outlets for particles to move with user fixed density. This is the first step to which will help us to utilize the fluid dynamics in flow capacitor model.

In start we used the micro-mixer model which is assumed as a slurry chamber, and step wise introduced another micro-mixer for second slurry chamber. The first problem that arise is the coupling of both chambers in a way that both mixers should be moving but because of some overlapped boundary conditions only one mixers was moving. 400dpi 400dpi