Turbulence modelling

kluni · November 28, 2009, 18:02

Hello everyone,
I am a German student and have to make a simulation in turbulent flow. So far no problem.
But I am asking me, how CFX is modelling this turbulent flow. I just don't want to use CFX without knowing what I am doing.
We use the SST model and I am trying to understand the standard k-epsilon model.
I understood the derivation of the k-turbulence energy in the transport equation.
However the second equation, of the dissipation, where does it come from? I know Jones und Launder made this equation, but how?
Is there a good book, where these things are written down?
I also tried to search for the paper of Jones und Launder, but couldn't find it.
I just want a better understanding in the SST modelling.
Thanks in advance for eny help.
Lot of greetings,
Kluni

harishg · November 28, 2009, 20:45

The epsilon equation is one of the biggest concern when using the RANS models. The dissipation equations are mostly empirical in nature. For further details refer to the book of Wilcox on turbulence modeling.

thecfduser · December 1, 2009, 03:51

The equation of epsilon is just derived to have the same form than the k equation...the destruction term is modeled in a manner to handdle big k variations......
It is a bit wierd to invent an equation like that....but it gives good results anyway

andy_ · December 1, 2009, 10:05

Quote:

Originally Posted by kluni

I understood the derivation of the k-turbulence energy in the transport equation. However the second equation, of the dissipation, where does it come from?

It is derived in exactly the same way as the k equation:
- write down the exact transport equation for epsilon
- provide models for the terms involving unknown quantities in terms of known quantities and empirical coefficients
- determine the empirical coefficients from measurements

Quote:

Originally Posted by kluni

Is there a good book, where these things are written down?

Pretty much any course or book involving turbulence modelling for engineering CFD will discuss it because it is the simplest most commonly used general turbulence model.

thecfduser · December 1, 2009, 13:29

hi
how can u derive the epsilon equation from NS?
Regards

harishg · December 1, 2009, 13:54

The book of Wilcox provides detailed information on deriving the epsilon equation from the Navier-Stokes equations. The general idea is to multiply the Navier-Stokes equation with gradients of uprime and perform a considerable amount of algebra to obtain the equation for dissipation.

thecfduser · December 1, 2009, 16:46

ah ok thank you

November 28, 2009, 18:02	Turbulence modelling	#1
kluni New Member Kluni Join Date: Nov 2009 Posts: 4 Rep Power: 16	Hello everyone, I am a German student and have to make a simulation in turbulent flow. So far no problem. But I am asking me, how CFX is modelling this turbulent flow. I just don't want to use CFX without knowing what I am doing. We use the SST model and I am trying to understand the standard k-epsilon model. I understood the derivation of the k-turbulence energy in the transport equation. However the second equation, of the dissipation, where does it come from? I know Jones und Launder made this equation, but how? Is there a good book, where these things are written down? I also tried to search for the paper of Jones und Launder, but couldn't find it. I just want a better understanding in the SST modelling. Thanks in advance for eny help. Lot of greetings, Kluni

Similar Threads
Thread	Thread Starter	Forum	Replies	Last Post
Discussion: Reason of Turbulence!!	Wen Long	Main CFD Forum	3	May 15, 2009 09:52
Turbulence modelling validation : Orifice flow	Joe	Main CFD Forum	2	July 26, 2006 16:41
Turbulence modelling	Panos	Siemens	6	July 8, 2004 02:40
k-ep turbulence modelling	allan thomson	Main CFD Forum	5	February 20, 2000 20:39

November 28, 2009, 20:45		#2
harishg Senior Member N/A Join Date: Mar 2009 Posts: 189 Rep Power: 17	The epsilon equation is one of the biggest concern when using the RANS models. The dissipation equations are mostly empirical in nature. For further details refer to the book of Wilcox on turbulence modeling.

December 1, 2009, 03:51		#3
thecfduser Senior Member karine Join Date: Nov 2009 Posts: 158 Rep Power: 16	The equation of epsilon is just derived to have the same form than the k equation...the destruction term is modeled in a manner to handdle big k variations...... It is a bit wierd to invent an equation like that....but it gives good results anyway

December 1, 2009, 13:29		#5
thecfduser Senior Member karine Join Date: Nov 2009 Posts: 158 Rep Power: 16	hi how can u derive the epsilon equation from NS? Regards

December 1, 2009, 13:54		#6
harishg Senior Member N/A Join Date: Mar 2009 Posts: 189 Rep Power: 17	The book of Wilcox provides detailed information on deriving the epsilon equation from the Navier-Stokes equations. The general idea is to multiply the Navier-Stokes equation with gradients of uprime and perform a considerable amount of algebra to obtain the equation for dissipation.

December 1, 2009, 16:46		#7
thecfduser Senior Member karine Join Date: Nov 2009 Posts: 158 Rep Power: 16	ah ok thank you