Investigation of the three-dimensional flow field within a transonic fan rotor - Experiment and analysisAn experimental investigation of the three-dimensional flow field through a low aspect ratio, transonic, axial flow fan rotor has been conducted, using an advanced laser anemometer (LA) system. Laser velocimeter measurements of the rotor flow field at the design operating speed and over a range of throughflow conditions are compared to analytical solutions. The numerical technique used herein yields the solution to the full, three-dimensional, unsteady Euler equations using an explicit time-marching, finite volume approach. The numerical analysis, when coupled with a simplified boundary layer calculation, generally yields good agreement with the experimental data. The test rotor has an aspect ratio of 1.56, a design total pressure ratio of 1.629 and a tip relative Mach number of 1.38. The high spatial resolution of the LA data matrix (9 radial x 30 axial x 50 blade-to-blade) permits details of the transonic flow field such as shock location, turning distribution, and blade loading levels to be investigated and compared to analytical results.
Document ID
19840064208
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
Pierzga, M. J. (U.S. Army, Propulsion Laboratory, Cleveland OH, United States)
Wood, J. R. (NASA Lewis Research Center Cleveland, OH, United States)