Test Cases
The data for the estimation of the discretization error/uncertainty of functional and local flow quantities was obtained from six statistically steady, two-dimensional flows of an incompressible fluid computed with the open-usage viscous flow code ReFRESCO (www.refresco.org):
simulated with the SST k-w two-equation model.
All calculations were performed using double precision (15 digits) and iterative convergence criteria based on the maximum (
norm) normalized residual 
of all transport equations solved for each flow condition. Normalized residuals are equivalent to the change of dimensionless dependent variables in a simple Jacobi iteration. Reference values are the fluid density 
, 
and 
for the plate flow and , and for the flow around the airfoils. Maximum values of for the six test cases are given below.
- Flow over a flat plate at three different Reynolds numbers based on the plate length
, incoming velocity and fluid kinematic viscosity 
, 
- I.
- II.
- III.
- I.
- Flow around a NACA 0012 airfoil at Reynolds number based on the airfoil chord , incoming velocity and fluid kinematic viscosity of
at three angles of attack 
:
- IV.
- V.
- VI.
- For these six cases, simulations were performed with three isotropic eddy-viscosity turbulence models:
- IV.
two-equation model. simulated with the SST k-w two-equation model.All calculations were performed using double precision (15 digits) and iterative convergence criteria based on the maximum (
norm) normalized residual of all transport equations solved for each flow condition. Normalized residuals are equivalent to the change of dimensionless dependent variables in a simple Jacobi iteration. Reference values are the fluid density , and for the plate flow and , and for the flow around the airfoils. Maximum values of for the six test cases are given below.| Test Case | Flat Plate | NACA 0012 | ||||
| I | II | III | IV | V | VI | |
|
10-8 | 10-8 | 5×10-8 | 10-8 | 2×10-8 | 2×10-8 |