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RESEARCH PAPERS

The Prediction of Steady, Circumferential Pressure and Temperature Distortions in Multistage Axial Flow Compressors

[+] Author and Article Information
H. Mokelke

Motoren- und Turbinen-Union München GmbH, Postfach 50 06 40, 8000 München 50, Germany

J. Eng. Power 102(2), 448-458 (Apr 01, 1980) (11 pages) doi:10.1115/1.3230277 History: Received January 11, 1979; Online September 28, 2009

Abstract

A small perturbation theory is presented for the prediction of the decay of steady circumferential pressure, temperature and velocity distortions in multistage axial flow compressors. The mathematical model which is employed replaces the blade rows of the compressor by actuator disks. A closed solution for the linearized equations describing the two-dimensional, inviscid and compressible flow between the disks is derived and appropriate matching conditions at the disks (assuming a quasi-steady blade response) are determined. An efficient calculation procedure is presented which allows the rapid computation of the distortion development through any compressor configuration, i.e., through any combination of rotors, stators and axial clearances including the core engine compression system. The theory can be applied to the mean section of the compressor or separately from stream surface to stream surface. Due to the assumption of a two-dimensional flow, however, it is restricted to purely circumferential distortions in compressors with sufficiently high hub-to-tip ratios where radial flow redistributions can be expected to be small. The validity of the small perturbation theory is demonstrated by comparing the theoretical results with experimental data. In addition, the theory is used to study the effect of Mach-number and flow rate on the decay of the distortions through two compressor configurations. Suggestions are made how to utilize the theory for the design of distortion-tolerant compressors.

Copyright © 1980 by ASME
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