Coupling optimization design of aspirated compressor airfoil and aspirated scheme based on artificial bee colony algorithm and CST method

Jun Li; Bo Liu; Yan Zhao; Xiaodong Yang; Xiaofeng Lu; Lei Wang

doi:10.1515/tjj-2014-0011

Coupling optimization design of aspirated compressor airfoil and aspirated scheme based on artificial bee colony algorithm and CST method

Jun Li, Bo Liu, Yan Zhao, Xiaodong Yang, Xiaofeng Lu, Lei Wang

School of Power and Energy

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

3 Scopus citations

Abstract

This paper focuses on creating a new design method optimizing both aspirated compressor airfoil and the aspiration scheme simultaneously. The optimization design method is based on the artificial bee colony algorithm and the CST method, while the flow field is computed by one 2D computational program. The optimization process of the rotor tip and stator tip airfoil from an aspirated fan stage is demonstrated to verify the effectiveness of the new coupling method. The results show that the total pressure losses of the optimized stator tip and rotor tip airfoil are reduced relatively by 54% and 20%, respectively. Artificial bee colony algorithm and CST method indicate a satisfying applicability in aspirated airfoil optimization design. Finally, the features of aspirated airfoil designing process are concluded.

Original language	English
Pages (from-to)	25-39
Number of pages	15
Journal	International Journal of Turbo and Jet Engines
Volume	32
Issue number	1
DOIs	https://doi.org/10.1515/tjj-2014-0011
State	Published - 1 Apr 2015

Keywords

artificial bee colony algorithm
aspirated compressor airfoil
aspirated scheme
coupling optimization design
CST method

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10.1515/tjj-2014-0011

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title = "Coupling optimization design of aspirated compressor airfoil and aspirated scheme based on artificial bee colony algorithm and CST method",

abstract = "This paper focuses on creating a new design method optimizing both aspirated compressor airfoil and the aspiration scheme simultaneously. The optimization design method is based on the artificial bee colony algorithm and the CST method, while the flow field is computed by one 2D computational program. The optimization process of the rotor tip and stator tip airfoil from an aspirated fan stage is demonstrated to verify the effectiveness of the new coupling method. The results show that the total pressure losses of the optimized stator tip and rotor tip airfoil are reduced relatively by 54% and 20%, respectively. Artificial bee colony algorithm and CST method indicate a satisfying applicability in aspirated airfoil optimization design. Finally, the features of aspirated airfoil designing process are concluded.",

keywords = "artificial bee colony algorithm, aspirated compressor airfoil, aspirated scheme, coupling optimization design, CST method",

author = "Jun Li and Bo Liu and Yan Zhao and Xiaodong Yang and Xiaofeng Lu and Lei Wang",

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doi = "10.1515/tjj-2014-0011",

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T1 - Coupling optimization design of aspirated compressor airfoil and aspirated scheme based on artificial bee colony algorithm and CST method

AU - Li, Jun

AU - Liu, Bo

AU - Zhao, Yan

AU - Yang, Xiaodong

AU - Lu, Xiaofeng

AU - Wang, Lei

PY - 2015/4/1

Y1 - 2015/4/1

N2 - This paper focuses on creating a new design method optimizing both aspirated compressor airfoil and the aspiration scheme simultaneously. The optimization design method is based on the artificial bee colony algorithm and the CST method, while the flow field is computed by one 2D computational program. The optimization process of the rotor tip and stator tip airfoil from an aspirated fan stage is demonstrated to verify the effectiveness of the new coupling method. The results show that the total pressure losses of the optimized stator tip and rotor tip airfoil are reduced relatively by 54% and 20%, respectively. Artificial bee colony algorithm and CST method indicate a satisfying applicability in aspirated airfoil optimization design. Finally, the features of aspirated airfoil designing process are concluded.

AB - This paper focuses on creating a new design method optimizing both aspirated compressor airfoil and the aspiration scheme simultaneously. The optimization design method is based on the artificial bee colony algorithm and the CST method, while the flow field is computed by one 2D computational program. The optimization process of the rotor tip and stator tip airfoil from an aspirated fan stage is demonstrated to verify the effectiveness of the new coupling method. The results show that the total pressure losses of the optimized stator tip and rotor tip airfoil are reduced relatively by 54% and 20%, respectively. Artificial bee colony algorithm and CST method indicate a satisfying applicability in aspirated airfoil optimization design. Finally, the features of aspirated airfoil designing process are concluded.

KW - artificial bee colony algorithm

KW - aspirated compressor airfoil

KW - aspirated scheme

KW - coupling optimization design

KW - CST method

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DO - 10.1515/tjj-2014-0011

M3 - 文章

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SN - 0334-0082

VL - 32

SP - 25

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JO - International Journal of Turbo and Jet Engines

JF - International Journal of Turbo and Jet Engines

IS - 1

ER -

Coupling optimization design of aspirated compressor airfoil and aspirated scheme based on artificial bee colony algorithm and CST method

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Keywords

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