Develop a velocity profile with respect to radius (such that the reference is the center line of the orifice which is basically a cylindrical tube) in MATLAB
Guidance 🤝
Step 1: Review and identify your dependent, independent and constant variables
Step 2: Convert your variables into METRIC.
Step 3: Use MATLAB and the picture reference below to develop the Velocity Profile against radius,r
Step 4: Save your file as navier_stokes_yourname_VX where X is the version of your work
Fluid: Water at room temperature
Chamber Pressure=100 psi
Injector PressureDrop: 20% of the chamber pressure
Injector Orifice Length of the Oxidizer = 0.00299185 m
Mass Flow of the Oxidizer = 0.0953266 kg/s
Diameter of the Oxidizer Orifice = 0.000997284 m
Description
Develop a velocity profile with respect to radius (such that the reference is the center line of the orifice which is basically a cylindrical tube) in MATLAB
Guidance 🤝
Step 1: Review and identify your dependent, independent and constant variables Step 2: Convert your variables into METRIC. Step 3: Use MATLAB and the picture reference below to develop the Velocity Profile against radius,r Step 4: Save your file as navier_stokes_yourname_VX where X is the version of your work
For example
Step 5: Upload your work to Navier_Stokes_Injector Folder
Useful Information 💯
Fluid: Water at room temperature Chamber Pressure=100 psi Injector PressureDrop: 20% of the chamber pressure Injector Orifice Length of the Oxidizer = 0.00299185 m Mass Flow of the Oxidizer = 0.0953266 kg/s Diameter of the Oxidizer Orifice = 0.000997284 m
Assumptions 🤔