Aerodynamic improved design and optimization for the rear stage of a High-load axial compressor

This paper proposes and discusses the aerodynamic retrofit design schemes for a multistage high pressure axial compressor. A high hub/tip ratio mixed-flow compressor is designed and analyzed to replace the rear stage of the axial compressor. In order to minimize the axial dimension and maximize the...

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Bibliographic Details
Published in:Journal of the Brazilian Society of Mechanical Sciences and Engineering 2021-03, Vol.43 (3), Article 160
Main Authors: Xiang, Hang, Chen, Jiang, Cheng, Jinxin, Niu, Han, Liu, Yi, Song, Xiancheng
Format: Article
Language:English
Subjects:
Aerodynamics
Control methods
Design improvements
Design optimization
Dimensionless numbers
Engineering
Impellers
Mechanical Engineering
Parameterization
Pressure ratio
Retrofitting
Technical Paper
Turbocompressors
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Summary:This paper proposes and discusses the aerodynamic retrofit design schemes for a multistage high pressure axial compressor. A high hub/tip ratio mixed-flow compressor is designed and analyzed to replace the rear stage of the axial compressor. In order to minimize the axial dimension and maximize the load capacity, three unconventional types of combined compressors equipped with the high hub/tip ratio mixed-flow compressor are explored. Further, the effects of blade number, splitter blades and dimensionless geometric parameters on the mixed-flow compressor performance are investigated by an improved loss model. A full-surface parameterization control method is introduced and adopted for blade optimizations of the mixed-flow impeller and the tandem stator. The results indicate that after aerodynamic improved design and optimization, the total pressure ratio is relatively improved by 3.71% and the adiabatic efficiency is improved by 0.95 percent point for the mixed-flow compressor at the near design point. Based on this, the retrofit schemes for the axial compressor are beneficial to improve the load capacity and reduce the axial dimension with a slight impact on efficiency and surge margin. These show the potential application prospects of high hub/tip ratio mixed-flow compressors.
ISSN:1678-5878
1806-3691
DOI:10.1007/s40430-021-02848-2