Date: Thu, 28 Mar 2024 16:28:46 -0500 (CDT) Message-ID: <1442927025.3770.1711661326335@cornell1-cos-conf1.managed.contegix.com> Subject: Exported From Confluence MIME-Version: 1.0 Content-Type: multipart/related; boundary="----=_Part_3769_430549321.1711661326335" ------=_Part_3769_430549321.1711661326335 Content-Type: text/html; charset=UTF-8 Content-Transfer-Encoding: quoted-printable Content-Location: file:///C:/exported.html
Author(s): Sebastian Vecchi, ANSYS Inc.
Problem=
Specification
1. Pre-Analysis & Start-Up
2. Geometry
3. Mesh
4. Physics Setu=
p
5.=
Results
6. Verification & Validation
Press the Results button in the Workflow to extract information from the simulation. = In order to find information that can be readily used, first press <= strong>Evaluate Results<= span style=3D"color: rgb(0,0,0);">. AIM will automatically calculate the so= lution and evaluate the results. Once the evaluation is complete, AIM will = automatically output a velocity vector field in the Results section under = Objects. The arrows in the velocity vector field are in= itially too small to see.
Select the velocity Vector t=
o edit its settings. Change Symbol distribution=
to Based on mesh, set the Symbol length to
To plot the pressure change, a contou= r on the mid-plane of the flow volume will most accurately represent a pres= sure contour of the flow. Selec= t Contour in the Add menu, choose the newly created plane to map the contour onto, and a= ssign the Variable to be Total Pressure.
The same thing can be done to plot th= e velocity change as a contour. Repeat the steps above to create the contour, but make the variable Velocity Magnitude instead of Total Pressure. In the Appearance se= ction change the Colori= ng to <= span style=3D"color: rgb(0,0,255);">Banded and the Number of colors to 20.