Numerical simulation on IGV/rotor interaction in an axial-flow compressor stage

Limin Gao; Xuan Chen; Ying Bai; Xudong Feng

doi:10.11776/cjam.30.04.A022

Numerical simulation on IGV/rotor interaction in an axial-flow compressor stage

Limin Gao, Xuan Chen, Ying Bai, Xudong Feng

School of Power and Energy

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

A corresponding three-dimensional steady viscous code is developed for simulating the flowfield inside the axial-flow compressor stage. And it considers circumferential and radial non-uniform distribution using the method of under relaxation in mixing plane. An example of IGV/rotor interaction in an axial-flow compressor stage is used to verify the developed method and compared with the results calculated by a commercial CFD solver. Total pressure ratio at mixing plane is nearly constant in the calculation of program but an extent of decline in the commercial CFD solver because of the artificial loss. Results of 3-D simulation also indicate that negative incidence angle for rotor occurs during the design stage, so a little flow separation occurs on pressure surface of the rotor.

Original language	English
Pages (from-to)	569-573
Number of pages	5
Journal	Yingyong Lixue Xuebao/Chinese Journal of Applied Mechanics
Volume	30
Issue number	4
DOIs	https://doi.org/10.11776/cjam.30.04.A022
State	Published - Aug 2013

Keywords

3-D viscous numerical simulation
Axial-flow compressor stage
IGV
Mixing plane
Rotor/stator interaction

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10.11776/cjam.30.04.A022

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title = "Numerical simulation on IGV/rotor interaction in an axial-flow compressor stage",

abstract = "A corresponding three-dimensional steady viscous code is developed for simulating the flowfield inside the axial-flow compressor stage. And it considers circumferential and radial non-uniform distribution using the method of under relaxation in mixing plane. An example of IGV/rotor interaction in an axial-flow compressor stage is used to verify the developed method and compared with the results calculated by a commercial CFD solver. Total pressure ratio at mixing plane is nearly constant in the calculation of program but an extent of decline in the commercial CFD solver because of the artificial loss. Results of 3-D simulation also indicate that negative incidence angle for rotor occurs during the design stage, so a little flow separation occurs on pressure surface of the rotor.",

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T1 - Numerical simulation on IGV/rotor interaction in an axial-flow compressor stage

AU - Gao, Limin

AU - Chen, Xuan

AU - Bai, Ying

AU - Feng, Xudong

PY - 2013/8

Y1 - 2013/8

N2 - A corresponding three-dimensional steady viscous code is developed for simulating the flowfield inside the axial-flow compressor stage. And it considers circumferential and radial non-uniform distribution using the method of under relaxation in mixing plane. An example of IGV/rotor interaction in an axial-flow compressor stage is used to verify the developed method and compared with the results calculated by a commercial CFD solver. Total pressure ratio at mixing plane is nearly constant in the calculation of program but an extent of decline in the commercial CFD solver because of the artificial loss. Results of 3-D simulation also indicate that negative incidence angle for rotor occurs during the design stage, so a little flow separation occurs on pressure surface of the rotor.

AB - A corresponding three-dimensional steady viscous code is developed for simulating the flowfield inside the axial-flow compressor stage. And it considers circumferential and radial non-uniform distribution using the method of under relaxation in mixing plane. An example of IGV/rotor interaction in an axial-flow compressor stage is used to verify the developed method and compared with the results calculated by a commercial CFD solver. Total pressure ratio at mixing plane is nearly constant in the calculation of program but an extent of decline in the commercial CFD solver because of the artificial loss. Results of 3-D simulation also indicate that negative incidence angle for rotor occurs during the design stage, so a little flow separation occurs on pressure surface of the rotor.

KW - 3-D viscous numerical simulation

KW - Axial-flow compressor stage

KW - IGV

KW - Mixing plane

KW - Rotor/stator interaction

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SN - 1000-4939

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JO - Yingyong Lixue Xuebao/Chinese Journal of Applied Mechanics

JF - Yingyong Lixue Xuebao/Chinese Journal of Applied Mechanics

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Numerical simulation on IGV/rotor interaction in an axial-flow compressor stage

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