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 The information provided may be out of date.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.
Trouble Setting up Non-Isothermal Flow through a Tube
Posted 2014年7月15日 GMT-4 13:18 Computational Fluid Dynamics (CFD), Studies & Solvers Version 4.4 3 Replies
Please login with a confirmed email address before reporting spam
Hello all,
I've been having difficulties setting up a non-isothermal flow study for a project; we've been trying to use COMSOL to back up some of our experimental results. We were able to get a fairly good representation of the flow field with COMSOL in a previous study, but have been having trouble pulling temperature data to see if it also matches the experiment.
I have set up two models: one models half of the tube and applies symmetry conditions, while the other models the entire tube and the surrounding medium.
PROJECT BACKGROUND:
We set up a small copper tube with an internal diameter of 0.160" which has two small holes of about 0.042" diameter in it's side (Sorry for the English units). One end of the tube is attached to the in-house air pressure system at 20 psi and the other end is closed off. The inlet is pressurized to 20 psi in-house pressure- at room temperature of 68*F - and the air flows through the pipe; it escapes through the two small holes drilled in the side of the tube, reaching the ambient environment (11.76 psia, 68*F).
Our experimental results showed the flow was choked within the outlet holes. For clarification of the setup I have attached a .png picture which depicts the study.
--------------------------------------------------
MODEL 1: "COMSOL - Mod 0, HP, kom + htif"
After running a fairly simple k-omega turbulent study, I tried adding heat transfer in fluids physics to the model. Although the study will converge to a solution, the temperature profile throughout the tube does not look like anything we saw in the experiment- it's constant. I am thinking this is because I haven't properly set up the physics to work with each other.
I have attached this model (COMSOL - Mod 0, HP, kom + htif). Does anyone have any thoughts?
--
MODEL 2: "COMSOL - Tube and Room - Mod 0"
This model studies the tube and the surrounding "room". The tube sits inside of the room and is pressurized by a cylinder which connects it to the area outside of the room - I did this as I was having trouble setting the inlet conditions if the tube if it was just sitting inside of the room. I tried modeling the system with the non-isothermal flow physics.
Although I don't receive any errors right away when I start the study, the solution will not converge and I will get an error message back a couple minutes in to the computations stating that NaN values were returned in the residual equations. This leads me to believe that I haven't properly set up the boundary conditions.
Any suggestions? Again, I have attached the model (COMSOL - Tube and Room - Mod 0) for your convenience and viewing pleasure.
----
Thank you ahead of time for the help; I've been well and truly stumped by this problem over the last few days.
Best regards,
~ Connor
I've been having difficulties setting up a non-isothermal flow study for a project; we've been trying to use COMSOL to back up some of our experimental results. We were able to get a fairly good representation of the flow field with COMSOL in a previous study, but have been having trouble pulling temperature data to see if it also matches the experiment.
I have set up two models: one models half of the tube and applies symmetry conditions, while the other models the entire tube and the surrounding medium.
PROJECT BACKGROUND:
We set up a small copper tube with an internal diameter of 0.160" which has two small holes of about 0.042" diameter in it's side (Sorry for the English units). One end of the tube is attached to the in-house air pressure system at 20 psi and the other end is closed off. The inlet is pressurized to 20 psi in-house pressure- at room temperature of 68*F - and the air flows through the pipe; it escapes through the two small holes drilled in the side of the tube, reaching the ambient environment (11.76 psia, 68*F).
Our experimental results showed the flow was choked within the outlet holes. For clarification of the setup I have attached a .png picture which depicts the study.
--------------------------------------------------
MODEL 1: "COMSOL - Mod 0, HP, kom + htif"
After running a fairly simple k-omega turbulent study, I tried adding heat transfer in fluids physics to the model. Although the study will converge to a solution, the temperature profile throughout the tube does not look like anything we saw in the experiment- it's constant. I am thinking this is because I haven't properly set up the physics to work with each other.
I have attached this model (COMSOL - Mod 0, HP, kom + htif). Does anyone have any thoughts?
--
MODEL 2: "COMSOL - Tube and Room - Mod 0"
This model studies the tube and the surrounding "room". The tube sits inside of the room and is pressurized by a cylinder which connects it to the area outside of the room - I did this as I was having trouble setting the inlet conditions if the tube if it was just sitting inside of the room. I tried modeling the system with the non-isothermal flow physics.
Although I don't receive any errors right away when I start the study, the solution will not converge and I will get an error message back a couple minutes in to the computations stating that NaN values were returned in the residual equations. This leads me to believe that I haven't properly set up the boundary conditions.
Any suggestions? Again, I have attached the model (COMSOL - Tube and Room - Mod 0) for your convenience and viewing pleasure.
----
Thank you ahead of time for the help; I've been well and truly stumped by this problem over the last few days.
Best regards,
~ Connor
Attachments:
3 Replies Last Post 2014年7月23日 GMT-4 11:30