You are one of the best. Without knowing anything about Comsol, I watched your video and understood more than 50% of how it works. That's wonderful. Please provide more videos dear Dylan. Thank you so much.
Hello, Here you add the membrane properties like density, viscosity and porosity. Can you please provide some video about making this polymer membrane. by the polymer solution PSU+DMF.
Hello Mr. Dylan, your video is very informative and similar to my work. Need one more tutorial how we can show, drop dispersion. I mean how can I plot/show reducing shape of drop as it diffusing into the porous medium? Please make a titorial video on this.
Hollo, I hope to obtain some information in my questioned. How to change the simulation from non-wetting to partial wetting specially when using hollow fiber prous membrane in simulation ? Thanks.
I want to simulate a transient three-phase flow in porous media considering capillary action (Filter paper soaking water up). The porous zone is initially filled with air. I want to model the displacement of air with two liquids (water and glycerin, let's say) due to capillary forces. My main interest is the degree of wetting and the spreading of the wetting front. How to model capillary effects in the porous zone? I did the simulation but It is throwing an error " Unknown function or operator, Name: step1" Can anyone help me out?
Thank you so much for this tutorial. I’m working on biosensors to detect the amount of ammonia in the blood. Can I have your email I’d so that I can discuss in depth?
Hi Dylan, Your videos are so informative, thank you for ur hard work. Can you do any video tutorial for simulation of numerical temperature analysis of magnetic hyperthermia considering nanoparticle clustering and blood vessels?
Thanks for your comment. I've never worked on a module like that, but do you mean something like this? www.comsol.com/paper/magnetic-heating-of-iron-oxide-nanoparticles-with-alternating-magnetic-field-for-19663
@@dylanrutledge5716 Thanks for your kind response. The story in short: inject magnetic nanoparticles into tumor, apply external high frequency AC magnetic field, particles vibrate and transform induced magnetic energy into heat energy, cells absorb heat energy (i think the keyword here is "Penne’s bioheat equation"), when the temperature in the medium is in the range of 40 °C-45 °C cancer cells go to hell (thermal ablation), and healthy cells are still alive. i mean something like these: ieeexplore.ieee.org/abstract/document/7067491 aip.scitation.org/doi/abs/10.1063/1.5087092 ieeexplore.ieee.org/abstract/document/7964755
