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November 11, 2012, 17:04 |
formula
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#1 |
New Member
reza hemmat
Join Date: Jan 2012
Posts: 24
Rep Power: 14 |
hello,
I wanna to simulate single-phase boiling in a duct via AVL Fire. I need to compute the contours of {htc(boil)+htc(convective)}. but unfortunaltely I canot do anything to compute the mentioned sum. I have heared it can be done by wrting a formula in Fire 3D plot but I canot. some one said to sum those htc in Tecplot! does any one have any idea? if yes lease tell me the procedure.Any comment is appreciated. Thanks in advance. hint: htc(boil) and htc(convective) contours both are computed seperately. |
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November 22, 2012, 05:40 |
°
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#2 |
New Member
Arno Nymus
Join Date: Aug 2012
Posts: 1
Rep Power: 0 |
Hi rezahemmat1985,
there you have essentially two ways to produce this post-processing. If you're on v2010 or later, you can put the formula into $HOME/.avl/avl\ fire\ wm/2011/derivedQuantities. It is then applied online, no need to read your data and write the results into you 3D-Results. If you're pre-v2010, you need to write the data into your fl3-result-file using the cfdDerive command line tool. Just look into the workflow-managers manual to learn about it's usage. If you want to see example formulas you can look into your install dir: $AVLAST_HOME/CFDWM/v2011.1/files/formulaExamples/AK_AttributeFormulas/cfdDerive/ There you can see a lot of examples how to postprocess the results. In essence, there are three steps: Use the Bind() command to get the two HTC values use strcpy(name, "ElementData:Flow:CombinedHTC:W/m^2"); to export the new values name In the formula body, just return the two bound values. HTH cschm |
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