Linear stability model of rotating stall based on direct numerical techniques: Part I - Theoretical model and algorithm

Rui Wei Hou; Xiao Feng Sun

Linear stability model of rotating stall based on direct numerical techniques: Part I - Theoretical model and algorithm

Rui Wei Hou^*
, Xiao Feng Sun

^*Corresponding author for this work

School of Energy and Power Engineering

Beihang University

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

A linear stability model of rotating stall in axial flow fan/compressors was presented based on direct numerical methods to Navier-Stokes equations, which was described as an eigenvalue problem. The inception point of rotating stall can be predicted by the model without requiring more experimental or empirical relations as input data. Two different methods, finite difference method and spectral collocation method, have been proposed to discretize the eigenvalue equation and the relevant comparison and analysis also have been given in the present investigation.

Original language	English
Pages (from-to)	2727-2734
Number of pages	8
Journal	Hangkong Dongli Xuebao/Journal of Aerospace Power
Volume	24
Issue number	12
State	Published - Dec 2009

Keywords

Axial compressor
Eigenvalue
Finite difference method
Rotating stall
Spectral method
Stability

Cite this

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title = "Linear stability model of rotating stall based on direct numerical techniques: Part I - Theoretical model and algorithm",

abstract = "A linear stability model of rotating stall in axial flow fan/compressors was presented based on direct numerical methods to Navier-Stokes equations, which was described as an eigenvalue problem. The inception point of rotating stall can be predicted by the model without requiring more experimental or empirical relations as input data. Two different methods, finite difference method and spectral collocation method, have been proposed to discretize the eigenvalue equation and the relevant comparison and analysis also have been given in the present investigation.",

keywords = "Axial compressor, Eigenvalue, Finite difference method, Rotating stall, Spectral method, Stability",

author = "Hou, \{Rui Wei\} and Sun, \{Xiao Feng\}",

year = "2009",

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journal = "Hangkong Dongli Xuebao/Journal of Aerospace Power",

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T2 - Part I - Theoretical model and algorithm

AU - Hou, Rui Wei

AU - Sun, Xiao Feng

PY - 2009/12

Y1 - 2009/12

N2 - A linear stability model of rotating stall in axial flow fan/compressors was presented based on direct numerical methods to Navier-Stokes equations, which was described as an eigenvalue problem. The inception point of rotating stall can be predicted by the model without requiring more experimental or empirical relations as input data. Two different methods, finite difference method and spectral collocation method, have been proposed to discretize the eigenvalue equation and the relevant comparison and analysis also have been given in the present investigation.

AB - A linear stability model of rotating stall in axial flow fan/compressors was presented based on direct numerical methods to Navier-Stokes equations, which was described as an eigenvalue problem. The inception point of rotating stall can be predicted by the model without requiring more experimental or empirical relations as input data. Two different methods, finite difference method and spectral collocation method, have been proposed to discretize the eigenvalue equation and the relevant comparison and analysis also have been given in the present investigation.

KW - Axial compressor

KW - Eigenvalue

KW - Finite difference method

KW - Rotating stall

KW - Spectral method

KW - Stability

UR - https://www.scopus.com/pages/publications/73649142381

M3 - 文章

AN - SCOPUS:73649142381

SN - 1000-8055

VL - 24

SP - 2727

EP - 2734

JO - Hangkong Dongli Xuebao/Journal of Aerospace Power

JF - Hangkong Dongli Xuebao/Journal of Aerospace Power

IS - 12

ER -

Linear stability model of rotating stall based on direct numerical techniques: Part I - Theoretical model and algorithm

Abstract

Keywords

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