Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.

Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.

Minimizing the aerodynamic drag and the lift of the train coach remains a key issue for high-speed trains. With the development of computing technology and computational fluid dynamics (CFD) in the engineering field, CFD has been successfully applied to the design process of high-speed trains. Howev...

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Main Authors: Gang Xu, Xifeng Liang, Shuanbao Yao, Dawei Chen, Zhiwei Li
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5271390?pdf=render
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spelling doaj-07af42db7f714a6d8df808887dcb72ec2020-11-25T01:02:14ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-01121e017080310.1371/journal.pone.0170803Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.Gang XuXifeng LiangShuanbao YaoDawei ChenZhiwei LiMinimizing the aerodynamic drag and the lift of the train coach remains a key issue for high-speed trains. With the development of computing technology and computational fluid dynamics (CFD) in the engineering field, CFD has been successfully applied to the design process of high-speed trains. However, developing a new streamlined shape for high-speed trains with excellent aerodynamic performance requires huge computational costs. Furthermore, relationships between multiple design variables and the aerodynamic loads are seldom obtained. In the present study, the Kriging surrogate model is used to perform a multi-objective optimization of the streamlined shape of high-speed trains, where the drag and the lift of the train coach are the optimization objectives. To improve the prediction accuracy of the Kriging model, the cross-validation method is used to construct the optimal Kriging model. The optimization results show that the two objectives are efficiently optimized, indicating that the optimization strategy used in the present study can greatly improve the optimization efficiency and meet the engineering requirements.http://europepmc.org/articles/PMC5271390?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Gang Xu
Xifeng Liang
Shuanbao Yao
Dawei Chen
Zhiwei Li
spellingShingle Gang Xu
Xifeng Liang
Shuanbao Yao
Dawei Chen
Zhiwei Li
Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
PLoS ONE
author_facet Gang Xu
Xifeng Liang
Shuanbao Yao
Dawei Chen
Zhiwei Li
author_sort Gang Xu
title Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
title_short Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
title_full Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
title_fullStr Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
title_full_unstemmed Multi-Objective Aerodynamic Optimization of the Streamlined Shape of High-Speed Trains Based on the Kriging Model.
title_sort multi-objective aerodynamic optimization of the streamlined shape of high-speed trains based on the kriging model.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description Minimizing the aerodynamic drag and the lift of the train coach remains a key issue for high-speed trains. With the development of computing technology and computational fluid dynamics (CFD) in the engineering field, CFD has been successfully applied to the design process of high-speed trains. However, developing a new streamlined shape for high-speed trains with excellent aerodynamic performance requires huge computational costs. Furthermore, relationships between multiple design variables and the aerodynamic loads are seldom obtained. In the present study, the Kriging surrogate model is used to perform a multi-objective optimization of the streamlined shape of high-speed trains, where the drag and the lift of the train coach are the optimization objectives. To improve the prediction accuracy of the Kriging model, the cross-validation method is used to construct the optimal Kriging model. The optimization results show that the two objectives are efficiently optimized, indicating that the optimization strategy used in the present study can greatly improve the optimization efficiency and meet the engineering requirements.
url http://europepmc.org/articles/PMC5271390?pdf=render
work_keys_str_mv AT gangxu multiobjectiveaerodynamicoptimizationofthestreamlinedshapeofhighspeedtrainsbasedonthekrigingmodel
AT xifengliang multiobjectiveaerodynamicoptimizationofthestreamlinedshapeofhighspeedtrainsbasedonthekrigingmodel
AT shuanbaoyao multiobjectiveaerodynamicoptimizationofthestreamlinedshapeofhighspeedtrainsbasedonthekrigingmodel
AT daweichen multiobjectiveaerodynamicoptimizationofthestreamlinedshapeofhighspeedtrainsbasedonthekrigingmodel
AT zhiweili multiobjectiveaerodynamicoptimizationofthestreamlinedshapeofhighspeedtrainsbasedonthekrigingmodel
_version_ 1725205852244148224

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