This paper applies a theoretical model developed recently to calculate the flow instability inception point in axial high speed compressors system with tip clearance. After the mean flow field is computed by 3D steady computational fluid dynamics (CFD) simulation, a body force approach, which is a function of flow field data and comprises of one inviscid part and the other viscid part, is taken to duplicate the physical sources of flow turning and loss. Further by applying appropriate boundary conditions and spectral collocation method, a group of homogeneous equations will yield from which the stability equation can be derived. The singular value decomposition (SVD) method is adopted over a series of fine grid points in frequency domain, and the onset point of flow instability can be judged by the imaginary part of the resultant eigenvalue. The first assessment is to check the applicability of the present model on calculating the stall margin of one single stage transonic compressors at 85% rotational speed. The reasonable prediction accuracy validates that this model can provide an unambiguous judgment on stall inception without numerous requirements of empirical relations of loss and deviation angle. It could possibly be employed to check overcomputed stall margin during the design phase of new high speed compressors. The following validation case is conducted to study the nontrivial role of tip clearance in rotating stall, and a parameter study is performed to investigate the effects of end wall body force coefficient on stall onset point calculation. It is verified that the present model could qualitatively predict the reduced stall margin by assuming a simplified body force model which represents the response of a large tip clearance on the unsteady flow field.
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China Academy of Civil Aviation Science
and Technology, CAAC,
e-mail: Liuxh@sjp.buaa.edu.cn
China Academy of Civil Aviation Science
and Technology, CAAC,
e-mail: Zhouyp@mail.castc.org.cn
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June 2015
Research-Article
Calculation of Flow Instability Inception in High Speed Axial Compressors Based on an Eigenvalue Theory
Xiaohua Liu,
China Academy of Civil Aviation Science
and Technology, CAAC,
e-mail: Liuxh@sjp.buaa.edu.cn
Xiaohua Liu
Aeroengine Airworthiness Certification Center
,China Academy of Civil Aviation Science
and Technology, CAAC,
No. 31 Guangximen Beili Jia
,Chaoyang District
,Beijing 100028
, China
School of Energy and Power Engineering
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100028
, China
e-mail: Liuxh@sjp.buaa.edu.cn
Search for other works by this author on:
Yanpei Zhou,
China Academy of Civil Aviation Science
and Technology, CAAC,
e-mail: Zhouyp@mail.castc.org.cn
Yanpei Zhou
Aeroengine Airworthiness Certification Center
,China Academy of Civil Aviation Science
and Technology, CAAC,
No. 31 Guangximen Beili Jia
,Chaoyang District
,Beijing 100028
, China
e-mail: Zhouyp@mail.castc.org.cn
Search for other works by this author on:
Xiaofeng Sun,
Xiaofeng Sun
School of Energy and Power Engineering,
e-mail: Sunxf@buaa.edu.cn
Beihang University
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100191
, China
e-mail: Sunxf@buaa.edu.cn
Search for other works by this author on:
Dakun Sun
Dakun Sun
1
School of Energy
and Power Engineering,
e-mail: Sundk@buaa.edu.cn
and Power Engineering,
Beihang University
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100191
, China
e-mail: Sundk@buaa.edu.cn
1Corresponding author.
Search for other works by this author on:
Xiaohua Liu
Aeroengine Airworthiness Certification Center
,China Academy of Civil Aviation Science
and Technology, CAAC,
No. 31 Guangximen Beili Jia
,Chaoyang District
,Beijing 100028
, China
School of Energy and Power Engineering
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100028
, China
e-mail: Liuxh@sjp.buaa.edu.cn
Yanpei Zhou
Aeroengine Airworthiness Certification Center
,China Academy of Civil Aviation Science
and Technology, CAAC,
No. 31 Guangximen Beili Jia
,Chaoyang District
,Beijing 100028
, China
e-mail: Zhouyp@mail.castc.org.cn
Xiaofeng Sun
School of Energy and Power Engineering,
e-mail: Sunxf@buaa.edu.cn
Beihang University
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100191
, China
e-mail: Sunxf@buaa.edu.cn
Dakun Sun
School of Energy
and Power Engineering,
e-mail: Sundk@buaa.edu.cn
and Power Engineering,
Beihang University
,No. 37 Xueyuan Road
,Haidian District
,Beijing 100191
, China
e-mail: Sundk@buaa.edu.cn
1Corresponding author.
Contributed by the International Gas Turbine Institute (IGTI) of ASME for publication in the JOURNAL OF TURBOMACHINERY. Manuscript received September 22, 2014; final manuscript received October 2, 2014; published online December 11, 2014. Editor: Ronald Bunker.
J. Turbomach. Jun 2015, 137(6): 061007 (9 pages)
Published Online: June 1, 2015
Article history
Received:
September 22, 2014
Revision Received:
October 2, 2014
Online:
December 11, 2014
Citation
Liu, X., Zhou, Y., Sun, X., and Sun, D. (June 1, 2015). "Calculation of Flow Instability Inception in High Speed Axial Compressors Based on an Eigenvalue Theory." ASME. J. Turbomach. June 2015; 137(6): 061007. https://doi.org/10.1115/1.4028768
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