Statistical prediction of dynamic distortion of inlet flow using minimum dynamic measurement. An application to the Melick statistical method and inlet flow dynamic distortion prediction without RMS measurements
Abstract
The Melick method of inlet flow dynamic distortion prediction by statistical means is outlined. A hypothetic vortex model is used as the basis for the mathematical formulations. The main variables are identified by matching the theoretical total pressure rms ratio with the measured total pressure rms ratio. Data comparisons, using the HiMAT inlet test data set, indicate satisfactory prediction of the dynamic peak distortion for cases with boundary layer control device vortex generators. A method for the dynamic probe selection was developed. Validity of the probe selection criteria is demonstrated by comparing the reduced-probe predictions with the 40-probe predictions. It is indicated that the the number of dynamic probes can be reduced to as few as two and still retain good accuracy.
- Publication:
-
Final Report Kansas Univ. Center for Research
- Pub Date:
- April 1986
- Bibcode:
- 1986kul..reptQ....S
- Keywords:
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- Aerodynamic Coefficients;
- Flow Distortion;
- Flow Distribution;
- Inlet Flow;
- Statistical Distributions;
- Computer Programs;
- Dynamic Characteristics;
- Gas Turbines;
- Probability Theory;
- Vortices;
- Fluid Mechanics and Heat Transfer