An approximate theory is presented for post-stall transients in multistage axial compression systems. The theory leads to a set of three simultaneous nonlinear third-order partial differential equations for pressure rise, and average and disturbed values of flow coefficient, as functions of time and angle around the compressor. By a Galerkin procedure, angular dependence is averaged, and the equations become first order in time. These final equations are capable of describing the growth and possible decay of a rotating-stall cell during a compressor mass-flow transient. It is shown how rotating-stall-like and surgelike motions are coupled through these equations, and also how the instantaneous compressor pumping characteristic changes during the transient stall process.
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January 1986
Research Papers
A Theory of Post-Stall Transients in Axial Compression Systems: Part I—Development of Equations
E. M. Greitzer
E. M. Greitzer
Massachusetts Institute of Technology, Cambridge, MA
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F. K. Moore
Cornell University, Ithaca, NY
E. M. Greitzer
Massachusetts Institute of Technology, Cambridge, MA
J. Eng. Gas Turbines Power. Jan 1986, 108(1): 68-76 (9 pages)
Published Online: January 1, 1986
Article history
Received:
January 10, 1985
Online:
October 15, 2009
Citation
Moore, F. K., and Greitzer, E. M. (January 1, 1986). "A Theory of Post-Stall Transients in Axial Compression Systems: Part I—Development of Equations." ASME. J. Eng. Gas Turbines Power. January 1986; 108(1): 68–76. https://doi.org/10.1115/1.3239887
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