Axial Compressor Middle Stage Secondary Flow Study.
Abstract
This report describes an experimental investigation of the secondary flow within and aft on an axial compressor model with thick endwall boundary layers. The objective wa sto obtain detailed aerodynamic and trace gas concentration traverse data aft of a well documented isolated rotor for the ultimate purpose of improving the design phases of compressor development based on an improved physical understanding of secondary flow. It was determined from the flow visualization, aerodynamic, and trace gas concentration results that the relative unloading of the midspan region of the airfoil inhibited a fullspan separation at high loading, thus preventing the massive radial displacement of the hub corner stall to the tip. Radial distribution of high and low total pressure fluid influenced the magnitude of the spanwise distribution of loss, such that there was a general decrease in loss near the hub to the extent that, for th least loaded case, a negative loss (increase in total pressure) was observed. The ability to determine the spanwise distribution of blockage was demonstrated. Large blockage was present in the endwall regions due to the corner stall and tip leakage with little blockage in the core flow region. Hub blockage was found to increase rapidly with loading.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jul 01, 1983
- Accession Number
- ADA130659
Entities
People
- H. David Joslyn
- Joel H. Wagner
- Robert P. Dring
Organizations
- United Technologies Corporation