Possible turbulence modelling bug in SRF solvers

otm · April 27, 2012, 09:14

Hi!

I'm working a lot with development of machines that rotates. Hence, I need to use the SRF solvers provided in OF (have not had time to use the MRF solvers yet).

My issue is that I'm not sure that the effects of system rotation, on the turbulence are included properly in the SRFSimpleFoam and SRFPimpleFoam solvers. As far as I can see the turbulence model is using the "Urel" field to calculate the tensors used in the modelling (but I should admit that I often have a hard time tracking down what the code does since there are so many different source files involved). In a linear eddy viscosity model this doesn't matter because only the strain rate tensor ((dUi/dxj+dUj/dxi)/2), which is invariant to rotation is used in the modelling of the Reynolds stresses. However in e.g. the LRR model the rotation rate tensor ((dUi/dxj-dUj/dxi)/2), which is not invariant to rotation is used.

A good test case for turbulence models in rotating frames is the fully developed flow in a pipe rotating around its axis. The flow is three dimensional but still very simple. The azimuthal velocity component (in the stationary frame) should have a parabolic shaped profile in the radial direction if the Reynolds stresses are predicted correctly. With a linear eddy viscosity model the azimuthal velocity will correspond to solid body rotation (i.e. a straight line).

I have tested the LRR model with the SRFSimpleFoam solver in the rotating pipe and did not get the correct profile. So it seems as if there is a bug (or at least an inconsistent method) in the SRF solvers.

Next i will run the pipe case in a stationary frame (with a moving wall). If I can get the right profiles in this case with the LRR model, I think it can be concluded that the implementation in the SRF solvers is wrong.

I welcome input from other users on this issue, if you agree with me or not. And if I have misunderstood something, please inform me.

I'm running OF-2.1.x.

BR
Olle

alberto · April 28, 2012, 02:12

As a suggestion, if the problem is confirmed, please report it on mantis: http://www.openfoam.org/mantisbt/main_page.php

Thanks,

vkrastev · April 30, 2012, 05:52

That's quite interesting...Any news about this issue? From a rapid look on Mantis' page it seems it hasn't been reported yet

Regards

V.

otm · May 29, 2012, 04:03

Update:

I still think that it could be an inadequate implementation of the turbulence models in the SRF-solvers. However, the way I wanted to show this did not work out. The reason is that in order to correctly predict the parabolic profile of the azimuthal velocity in the rotating pipe one needs to have a model for the inter-component transfer between the Reynolds stresses i.e. use a RSTM or EARSM. Unfortunately it turns out that the Reynolds stress models implemented in OF (LRR and Launder Gibson) are based on the simplified "isotropization of production" model (often referred to as IP-LRR) for the inter-component transfer, and this model is known to be unable of predicting the azimuthal velocity profile correctly.

So, the possible bug may not have a big influence until there are more advanced models available in OF.

BR
Olle

April 27, 2012, 09:14	Possible turbulence modelling bug in SRF solvers	#1
otm New Member Join Date: Jun 2009 Posts: 22 Rep Power: 16	Hi! I'm working a lot with development of machines that rotates. Hence, I need to use the SRF solvers provided in OF (have not had time to use the MRF solvers yet). My issue is that I'm not sure that the effects of system rotation, on the turbulence are included properly in the SRFSimpleFoam and SRFPimpleFoam solvers. As far as I can see the turbulence model is using the "Urel" field to calculate the tensors used in the modelling (but I should admit that I often have a hard time tracking down what the code does since there are so many different source files involved). In a linear eddy viscosity model this doesn't matter because only the strain rate tensor ((dUi/dxj+dUj/dxi)/2), which is invariant to rotation is used in the modelling of the Reynolds stresses. However in e.g. the LRR model the rotation rate tensor ((dUi/dxj-dUj/dxi)/2), which is not invariant to rotation is used. A good test case for turbulence models in rotating frames is the fully developed flow in a pipe rotating around its axis. The flow is three dimensional but still very simple. The azimuthal velocity component (in the stationary frame) should have a parabolic shaped profile in the radial direction if the Reynolds stresses are predicted correctly. With a linear eddy viscosity model the azimuthal velocity will correspond to solid body rotation (i.e. a straight line). I have tested the LRR model with the SRFSimpleFoam solver in the rotating pipe and did not get the correct profile. So it seems as if there is a bug (or at least an inconsistent method) in the SRF solvers. Next i will run the pipe case in a stationary frame (with a moving wall). If I can get the right profiles in this case with the LRR model, I think it can be concluded that the implementation in the SRF solvers is wrong. I welcome input from other users on this issue, if you agree with me or not. And if I have misunderstood something, please inform me. I'm running OF-2.1.x. BR Olle

April 28, 2012, 02:12		#2
alberto Senior Member Alberto Passalacqua Join Date: Mar 2009 Location: Ames, Iowa, United States Posts: 1,912 Rep Power: 36	As a suggestion, if the problem is confirmed, please report it on mantis: http://www.openfoam.org/mantisbt/main_page.php Thanks, __________________ Alberto Passalacqua GeekoCFD - A free distribution based on openSUSE 64 bit with CFD tools, including OpenFOAM. Available as in both physical and virtual formats (current status: http://albertopassalacqua.com/?p=1541) OpenQBMM - An open-source implementation of quadrature-based moment methods. To obtain more accurate answers, please specify the version of OpenFOAM you are using.

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April 30, 2012, 05:52		#3
vkrastev Senior Member Vesselin Krastev Join Date: Jan 2010 Location: University of Tor Vergata, Rome Posts: 368 Rep Power: 20	That's quite interesting...Any news about this issue? From a rapid look on Mantis' page it seems it hasn't been reported yet Regards V.

May 29, 2012, 04:03		#4
otm New Member Join Date: Jun 2009 Posts: 22 Rep Power: 16	Update: I still think that it could be an inadequate implementation of the turbulence models in the SRF-solvers. However, the way I wanted to show this did not work out. The reason is that in order to correctly predict the parabolic profile of the azimuthal velocity in the rotating pipe one needs to have a model for the inter-component transfer between the Reynolds stresses i.e. use a RSTM or EARSM. Unfortunately it turns out that the Reynolds stress models implemented in OF (LRR and Launder Gibson) are based on the simplified "isotropization of production" model (often referred to as IP-LRR) for the inter-component transfer, and this model is known to be unable of predicting the azimuthal velocity profile correctly. So, the possible bug may not have a big influence until there are more advanced models available in OF. BR Olle