(example-inclined-ramp)=
This page covers a simple test case of an inclined ramp.
The parameters of this problem are
The freestream conditions are defined below.
This problem can be solved analytically using simple isentropic flow relations and shock expansion theory. This solution will later serve as validation for the results obtained using PySAGAS.
(oblique-shock-relations)=
The nominal ramp conditions are solved using oblique shock wave theory.
The oblique shock angle is found by solving the
Using the oblique shock relations presented above, the following conditions on the ramp surface can be calculated.
Property | Ramp Value |
---|---|
4.65 | |
2567.41 Pa | |
107.89 K | |
0.0829 kg/m^3 |
The force sensitivities for each ramp design parameter can be calculated using the method of finite differencing. Performing such a study produces the results shown in the table below.
Parameter | |||
---|---|---|---|
1.07 | -3.11 | 0 | |
8.92 | -50.57 | 0 | |
4.46 | -25.28 | 0 |
Given the surface properties on the ramp calculated using the analytical solution, the parameter sensitivities can be approximated using PySAGAS. Note, the error of each sensitivitiy, as calculated using the analytical solution for reference, is shown in brackets.
Parameter | |||
---|---|---|---|
1.09 (-1.6%) | -3.20 (-3.1%) | 0 (0%) | |
8.92 (0%) | -50.57 (0%) | 0 (0%) | |
4.46 (0%) | -25.28 (0%) | 0 (0%) |