Sign-up for free online course on ANSYS simulations!| Include Page | ||||
|---|---|---|---|---|
|
| Include Page | ||||
|---|---|---|---|---|
|
Verification
Since so many study cases have been done for this problem, it is easiest to validate our simulation against those cases. In this tutorial, “Backward-Facing Step Flows for Various Expansion Ratios at Low and Moderate Reynolds Numbers” by G. Biswas, M. Breuer, and F. Durst will be our study case, and the streamlines will be compared to the simulation. In order to plot a streamline in AIM, select streamline Streamline from the Add drop down menu. Select the inlet Inlet as the seed Seed location, change the Distrbution Distribution to Based on mesh, retain 1 as Nchange N to 5, and change the Direction to Forward and backwardsbackward.
A second steamline will be created but to show the recirculation behind the step, using a plane located inside the recirculation region as the Seed location. Select Return to the Results task, select the small step wall using the face Face selection tool, and then create a plane by pressing the Add Plane button. Select streamline . Using the blue arrow, drag the plane to a location downstream of the step, about 1.5 times the step height away from the step. Return to the Results task and select Streamline from the Add drop down menu. Select the newly created Plane as the seed location, change the Distrbution Distribution to Based on mesh, retain 1 as Nchange N to 2, and change the Direction to Forward and backwardsbackward. The following image is a zoomed in picture of the eddie eddy found at the corner of the step.
The two streamlines can now be combined by traveling to the result list within the Results tab. Check off the boxes for the two streamlines to get the enchanced streamline image.
...
A streamline plot from the study case and from the simulation are shown below. It can be seen that the simulated flow behaved just as we had expected it to in our problem specification and the case study.
|
