Natural Convection: Exercise 1—Setting up the Model
Extracting the Fluid Domain
1. Click > and navigate to the folder with the downloaded parts. Click OK.
3. From the File Open dialog box, browse to the annulus_natural_convection folder and select annulus_natural_convection.asm. Click Open.
4. Click
in the Graphics toolbar to display the style elements. Select
Shading, or
Shading with Edges.
5. Click the Applications tab.
6. Click
Flow Analysis. The
Flow Analysis tab opens.
7. Click
New Project. The
New Project dialog box opens. Click
OK to create a new project Project 1.
8. Click
Select Simulation Domains. The
Domain Model Selection box opens.
9. In the Domain Model Selection box, select Add fluid domain.
10. In the Model Tree select CONCENTRIC_ANNULUS.PRT.
11. Middle-click to confirm. The fluid domain appears in the Domain Model Selection dialog box under Fluid Components.
12. Click OK. The fluid domain appears in the Flow Analysis Tree, as CONCENTRIC_ANNULUS under Domains.
Adding Boundary Conditions
1. Under Domains, right-click and select CONCENTRIC_ANNULUS.
2. In the graphics window, select the inner surface highlighted in red below.
3. Click OK. Under General Boundaries, a new entity BC_00001 is added.
4. Under Domains, right-click and select CONCENTRIC_ANNULUS.
5. In the graphics window, select the outer surface highlighted in blue below.
6. Click OK. Under General Boundaries, a new entity BC_00002 is added.
7. Under Domains, right-click and select CONCENTRIC_ANNULUS.
8. In the graphics window, select the top surface highlighted in green below.
9. Click OK. Under General Boundaries, a new entity BC_00003 is added.
10. Under Domains, right-click and select CONCENTRIC_ANNULUS.
11. In the graphics window, select the bottom surface.
12. Click OK. Under General Boundaries, a new entity BC_00004 is added.
13. Right-click and rename the following boundary conditions:
◦ BC_00001 as inner_surface
◦ BC_00002 as outer_surface
◦ BC_00003 as top_surface
◦ BC_00004 as bottom_surface