Application of a Simulated Annealing and Response Surface Model in Optimization Design of Moving Compressor Vanes

Wei Lin Yi; Hong Yan Huang; Wan Jin Han

Application of a Simulated Annealing and Response Surface Model in Optimization Design of Moving Compressor Vanes

Wei Lin Yi^*
, Hong Yan Huang
, Wan Jin Han

^*Corresponding author for this work

Harbin Institute of Technology

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

2 Citations (Scopus)

Abstract

An optimization program with global optimization ability has been developed, which combines simulated annealing algorithm with response surface models. A solution of the flow field is being found by using the three dimensional viscous flow equations. The sweep and twist of a certain type of axial compressor blade are then optimally designed by numerical calculation. Results show that flowing conditions in the flow field can be improved effectively by combined sweep and twist, increasing the efficiency by reducing losses caused by shock waves and wakes. This optimization design method is feasible.

Original language	English
Pages (from-to)	483-485+524
Journal	Dongli Gongcheng/Power Engineering
Volume	26
Issue number	4
Publication status	Published - Aug 2006
Externally published	Yes

Keywords

Compressor rotor
Numerical simulation
Power and mechanical engineering
Response surface
Simulated annealing

Cite this

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title = "Application of a Simulated Annealing and Response Surface Model in Optimization Design of Moving Compressor Vanes",

abstract = "An optimization program with global optimization ability has been developed, which combines simulated annealing algorithm with response surface models. A solution of the flow field is being found by using the three dimensional viscous flow equations. The sweep and twist of a certain type of axial compressor blade are then optimally designed by numerical calculation. Results show that flowing conditions in the flow field can be improved effectively by combined sweep and twist, increasing the efficiency by reducing losses caused by shock waves and wakes. This optimization design method is feasible.",

keywords = "Compressor rotor, Numerical simulation, Power and mechanical engineering, Response surface, Simulated annealing",

author = "Yi, \{Wei Lin\} and Huang, \{Hong Yan\} and Han, \{Wan Jin\}",

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journal = "Dongli Gongcheng/Power Engineering",

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AU - Yi, Wei Lin

AU - Huang, Hong Yan

AU - Han, Wan Jin

PY - 2006/8

Y1 - 2006/8

N2 - An optimization program with global optimization ability has been developed, which combines simulated annealing algorithm with response surface models. A solution of the flow field is being found by using the three dimensional viscous flow equations. The sweep and twist of a certain type of axial compressor blade are then optimally designed by numerical calculation. Results show that flowing conditions in the flow field can be improved effectively by combined sweep and twist, increasing the efficiency by reducing losses caused by shock waves and wakes. This optimization design method is feasible.

AB - An optimization program with global optimization ability has been developed, which combines simulated annealing algorithm with response surface models. A solution of the flow field is being found by using the three dimensional viscous flow equations. The sweep and twist of a certain type of axial compressor blade are then optimally designed by numerical calculation. Results show that flowing conditions in the flow field can be improved effectively by combined sweep and twist, increasing the efficiency by reducing losses caused by shock waves and wakes. This optimization design method is feasible.

KW - Compressor rotor

KW - Numerical simulation

KW - Power and mechanical engineering

KW - Response surface

KW - Simulated annealing

UR - https://www.scopus.com/pages/publications/33748711856

M3 - Article

AN - SCOPUS:33748711856

SN - 1000-6761

VL - 26

SP - 483-485+524

JO - Dongli Gongcheng/Power Engineering

JF - Dongli Gongcheng/Power Engineering

IS - 4

ER -

Application of a Simulated Annealing and Response Surface Model in Optimization Design of Moving Compressor Vanes

Abstract

Keywords

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