Wake Dissipation and Total Pressure Loss in a Two-Dimensional Compressor Cascade with Crenulated Trailing Edges
Abstract
Wake dissipation and total pressure loss in a two-dimensional, subsonic, compressor cascade with crenulated trailing edges were investigated in the Cascade Test Facility. Three blade configurations, a baseline NACA 64-905 airfoil and two crenulated edge patterns were used. Hot wire anemometry and a total pressure rake were used to collect the flow data. The smaller crenulation configuration exhibited the greatest turning angle and the least total pressure losses. The most rapid wake dissipation was generated by the larger crenulations' counterrotating vortices accompanied by slightly higher pressure losses than those created by the small crenulations. Both crenulated blade configurations had better wake dissipation, increased turning angles, and smaller pressure loss coefficients than the uncrenulated baseline blade.
Document Details
- Document Type
- Technical Report
- Publication Date
- Jun 01, 1989
- Accession Number
- ADA209176
Entities
People
- Janet L. Veesart
Organizations
- Air Force Institute of Technology