This was part of my plan (to output the values in a text file rather than a CSV. There is a way to calculate the CoP manually, but I am reviewing it at the moment - MantiumRAY queried me and found a (likely) small bias in my calculation.CAEdevice wrote:julien.decharentenay wrote:Sorry about not having taken up on your earlier query on this. To extract the pressure differential, please do the following:CAEdevice wrote:The limit I have is that I am not able to extract the pressure differential and to write it in a log (as it happens with the areo forces).
- Start ParaView;
- Open the openFoam file;
- Only select the boundary condition (in the part option) that you want to calculate the surface integral of pressure on;
- Apply a calculator filter;
- Set a new field "Pressure = 1.2 * p" (the pressure calculated and output by openFoam is normalised by the density);
- Apply the Surface Integral Filter;
- the surface integral of pressure is reported under Pressure.
Change the selected boundary condition to extract the value at the other surface.
You can, but it just takes longer to establish, hence more iterations...CAEdevice wrote:Another issues for a beginner is the manage the double start (preliminary run). What about starting directly from the second stage?
I finally managed to find a way to calculate the integral of presisone with Paraview (thanks Julien ), however , there is something wrong with the post processing (it fails very often when generating the pictures): it would be useful to calculate the COP by hand (I do it approximating the drag resulting position) . What is the algorithm used by OCCFD ? Would it be possible to include the COP in a text report ad not only in the HTML report ?
On the race #1 news, the CFD simulations are coming through. RicME is currently at the front of the pack - of currently five simulations, so it could change, and this result needs to be peer-reviewed by Chris. The resubmission deadline for non-compliance was pushed back to 6th May due to delay in compliance checking...
