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  • FLUENT - Flow over an Airfoil- Step 6

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Problem Specification
1. Create Geometry in GAMBIT
2. Mesh Geometry in GAMBIT
3. Specify Boundary Types in GAMBIT
4. Set Up Problem in FLUENT
5. Solve!
6. Analyze Results
7. Refine Mesh
Problem 1
Problem 2

Step 6: Analyze Results

Plot Velocity Vectors

Let's see the velocity vectors along the airfoil.

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On the trailing edge, the flow on the upper surface decelerates and converge with the flow on the lower surface.

Plot Pressure Coefficient

Pressure Coefficient is a dimensionless parameter defined by the equation
where 
is the static pressure,
is the reference pressure, and 
is the reference dynamic pressure defined by
. The reference pressure, density, and velocity are defined in the Reference Values panel in Step 5. Please refer to FLUENT's help for more information. Go to Help > User's Guide Index for help.

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The negative part of the plot is upper surface of the airfoil as the pressure is lower than the reference pressure.

Plot Pressure Contours

Plot static pressure contours.

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How can we compare the pressure contour with velocity vector plot? We see that the pressure on the upper surface is negative while the velocity on the upper surface is higher than the reference velocity. Whenever there is high velocity vectors, we have low pressures and vise versa. The phenomenon that we see comply with the Bernoulli equation.

Comparisons

With our simulation data, we can now compare the Fluent with experimental data. The summary of result is shown in the table.

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