Note: This discussion is about an older version of the COMSOL Multiphysics® software. The information provided may be out of date.
Discussion Closed This discussion was created more than 6 months ago and has been closed. To start a new discussion with a link back to this one, click here.
How to calculate average radial concentration vs axial length?
Posted 2011年11月15日 GMT-5 05:39 Version 4.2 2 Replies
Please login with a confirmed email address before reporting spam
Geometry: Simple rectangle (cartesian coordinates) width>height
Model: Transport of diluted species - time dependent
I have solved the equivalent of Taylor dispersion in a rectangular channel as a function of time. In order to compare with Taylor's analytical expression, I need to determine the average concentration in the y direction as a function of x for a given time. Using a Cut Line 2D I am able to plot the concentration for all x for a given y position or vise versa, but I cannot figure out how to average the concentration in the y direction for a given time and plot as a function of x.
Therefore, I would be much appreciative if someone could describe step by step how to do this. I have been through every COMSOL manual and cannot find a single description of this type of result manipulation.
Model: Transport of diluted species - time dependent
I have solved the equivalent of Taylor dispersion in a rectangular channel as a function of time. In order to compare with Taylor's analytical expression, I need to determine the average concentration in the y direction as a function of x for a given time. Using a Cut Line 2D I am able to plot the concentration for all x for a given y position or vise versa, but I cannot figure out how to average the concentration in the y direction for a given time and plot as a function of x.
Therefore, I would be much appreciative if someone could describe step by step how to do this. I have been through every COMSOL manual and cannot find a single description of this type of result manipulation.
2 Replies Last Post 2012年4月13日 GMT-4 19:17