Hello @Anonymous , 

Few thing to enhance your result. 

1. You should simulate your model in 2D instead. The computational cost of a 3D model is too high. By doing this you will be able to allocate a lot more element in your 2D model which is responsible for an accurate simulation

2. Choose a SST-kw turbulence model instead of the k-epsilon

3. Switch to incompressible. Compressible analysis is more suitable for high speed velocity and necessite unknown boundary condition instead of a 0 pressure gage.  Your BC are perfectly set for an incompressible analysis, good job !

4. Supress the mesh from your wing. your simulation will solve faster ! 

5. Add extra boundary layer near of your wing (5 -10) and make sure that your Y+ values had a correct value.  With a SST model Y+ should be around 1, with the k-epsilon Y+ should lie between 35 and 350. 

Up : Your simulation
Below  : SST-kw - 5 boundary layer 

velocity profile

Up : Your simulation
Below  : SST-kw - 5 boundary layer 

You see a tremendous difference in the result with just a simple refined meshing. 
Good Luck