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How to model laminar flow in 2d pipe flow with Comsol
Posted 22.06.2015, 08:17 GMT-4 Fluid & Heat, Computational Fluid Dynamics (CFD), Mesh, Modeling Tools & Definitions, Parameters, Variables, & Functions, Results & Visualization, Studies & Solvers 4 Replies
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I want to simulate a standard laminar flow problem using comsol. This problem is being for validating Comsol. The 2D pipe geometry is 0.2 m dia and 8 m length. The flow is laminar flow. Velocity is 1 m/s.
The density of the pipe is 1 kg/m^3 and viscosity mu is 0.002. So, Re = 100 < 2300.
The maximum velocity for parabolic profile shall be 2x1=2 m/s but after solving the velocity is coming 1.49 m/s. In what way the modelling shall be performed so that the desired results can be simulated in a stard format not as hit and trial method.
I have taken one side of width as inlet and other side as outlet. The other two longitudinal dimensions are taken as wall with no slip condition. Poutlet = 0 and 101325 Pa for two different cases.
Kindly help me modelling this problem.
Thanks.
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You may want to post your mph file otherwise it's hard for other users to make suggestions as to what you may have done wrong.
Jeff
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v(x) = 150*x*(0.2 - x)
v_aveg = 1 m/s = v_init
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Thanks for your reply. I think I have figured out that why the results were not matching. I was trying to model a pipe flow with 2-D problem as explained in the main details. I modeled a 3-D pipe and the results shows that Vmax = 2Vavg where as for 2-D Vmax=1.5Vag.
I modeled 2-D problem selecting 2-D axisymmetric and then the Vmax=2Vavg. It seems that Comsol was treating the previous 2-D problem as channel flow and giving Vmax=1.49 m/s (Vavg=1 m/s).
Kindly comment on my observations.
Thanks and Regards
Pavan Kr Patel
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Thanks for your reply. I think I have figured out that why the results were not matching. I was trying to model a pipe flow with 2-D problem as explained in the main details. I modeled a 3-D pipe and the results shows that Vmax = 2Vavg where as for 2-D Vmax=1.5Vag.
I modeled 2-D problem selecting 2-D axisymmetric and then the Vmax=2Vavg. It seems that Comsol was treating the previous 2-D problem as channel flow and giving Vmax=1.49 m/s (Vavg=1 m/s).
Kindly comment on my observations.
Thanks and Regards
Pavan Kr Patel