A General Theory of Flow-Instability Inception in Turbomachinery

A general eigenvalue theory on flow stability in turbomachinery is proposed with the emphasis on flow-instability onset. Based on this theory, a stall-inception model including the effects of complex solid geometry is developed for a multistage fan/compressors system. The capacity of the present model to predict the stall-inception point is assessed against experimental data of both a low-speed and transonic single rotor. Comparisons with a simplified two-dimensional model are performed to identify the nonnegligible effects of spanwise distribution of flowfield in a general configuration on the unstable mode of the concerned fan/compressors. It is verified that this model is capable of predicting mass flow at the stall-onset point of both subsonic and transonic flow with a reasonable accuracy, and it is sustainable in terms of computation cost for industrial application.

[1]  Eastman N. Jacobs,et al.  Airfoil section characteristics as affected by variations of the Reynolds number , 1939 .

[2]  Ivor Day,et al.  A study of spike and modal stall phenomena in a low-speed axial compressor , 1997 .

[3]  C. Hirsch,et al.  Throughflow model for design and analysis integrated in a three-dimensional Navier-Stokes solver , 1999 .

[4]  Zvi Rusak Transonic flow around the leading edge of a thin airfoil with a parabolic nose , 1993 .

[5]  Tom Hynes,et al.  Stall Inception in Axial Compressors , 1990 .

[6]  Xiaofeng Sun,et al.  A Model to Predict Stall Inception of Transonic Axial Flow Fan/Compressors , 2011 .

[7]  Mujeeb R. Malik,et al.  Finite-difference solution of the compressible stability eigenvalue problem , 1982 .

[8]  Joel M. Haynes Active control of rotating stall in a three-stage axial compressor , 1993 .

[9]  Alex Solomonoff,et al.  Accuracy and Speed in Computing the Chebyshev Collocation Derivative , 1995, SIAM J. Sci. Comput..

[10]  Gang Xu,et al.  Micro Air Injection and Its Unsteady Response in a Low-Speed Axial Compressor , 2002 .

[11]  A. H. Stenning,et al.  Rotating Stall and Surge , 1980 .

[12]  Alexander G. Wilson,et al.  Stall Inception and Development in an Axial Flow Aeroengine , 1994 .

[13]  H. Haitjema Three-Dimensional Flow , 1995 .

[14]  E. M. Greitzer,et al.  A Computational Model for Short-Wavelength Stall Inception and Development in Multistage Compressors , 1999 .

[15]  J. Adamczyk Model equation for simulating flows in multistage turbomachinery , 1996 .

[16]  Ivor Day,et al.  Stall Inception and the Prospects for Active Control in Four High-Speed Compressors , 1997 .

[17]  Xiaofeng Sun,et al.  On the relation between the inception of rotating stall and casing treatment , 1996 .

[18]  Rodrick V. Chima,et al.  A Three-Dimensional Unsteady CFD Model of Compressor Stability , 2013 .

[19]  Liping Xu Assessing Viscous Body Forces for Unsteady Calculations , 2003 .

[20]  Z. Rusak,et al.  Subsonic flow around the leading edge of a thin aerofoil with a parabolic nose , 1994, European Journal of Applied Mathematics.

[21]  Alan H. Epstein,et al.  Prestall Behavior of Several High-Speed Compressors , 1995 .

[22]  Alan H. Epstein,et al.  Rotating Waves as a Stall inception Indication in Axial Compressors , 1991 .

[23]  W. R. Sears Rotating stall in axial compressors , 1955 .

[24]  Chung-Hua Wu A General Theory of Three-Dimensional Flow in Subsonic and Supersonic Turbomachines of Axial, Radial, and Mixed-Flow Types , 1952, Journal of Fluids Engineering.

[25]  Zvi Rusak,et al.  Stall Onset on Airfoils at Moderately High Reynolds Number Flows , 2011 .

[26]  C. Peskin Flow patterns around heart valves: A numerical method , 1972 .

[27]  Kenneth L. Suder Blockage Development in a Transonic, Axial Compressor Rotor , 1998 .

[28]  Huu Duc Vo,et al.  Role of Blade Passage Flow Structurs in Axial Compressor Rotating Stall Inception , 1999 .

[29]  Ivor Day,et al.  1997 Best Paper Award—Turbomachinery Committee: A Study of Spike and Modal Stall Phenomena in a Low-Speed Axial Compressor , 1998 .

[30]  V. Garnier,et al.  Numerical simulations of surge and rotating-stall in multi-stage axial-flow compressors , 1994 .

[31]  Nigel Peake,et al.  Resonant acoustic frequencies of a tandem cascade. Part 1. Zero relative motion , 1999 .

[32]  Ilkka Karasalo,et al.  Computation of modal wavenumbers using an adaptive winding-number integral method with error control , 1993 .

[33]  Edward M. Greitzer,et al.  Surge and Rotating Stall in Axial Flow Compressors—Part I: Theoretical Compression System Model , 1976 .

[34]  Ivor Day Stall inception in axial flow compressors , 1993 .

[35]  Edward M. Greitzer,et al.  Evaluation of compressor stall modeling assumptions utilizing numerical solutions of rotating stall , 1997 .

[36]  Numerical Simulation of Rotating Stall in a Subsonic Compressor , 2004 .

[37]  Li He Computational Study of Rotating-Stall Inception in Axial Compressors , 1997 .

[38]  L. Reid,et al.  Performance of single-stage axial-flow transonic compressor with rotor and stator aspect ratios of 1.63 and 1.78, respectively, and with design pressure ratio of 1.82 , 1978 .

[39]  J.F.M. Scott,et al.  On the determination of the roots of dispersion equations by use of winding number integrals , 1991 .

[40]  L. Sirovich,et al.  Modeling a no-slip flow boundary with an external force field , 1993 .

[41]  Nigel Peake,et al.  Acoustic Resonance in Aeroengine Intake Ducts , 2004 .