红外成像与Michel 模型在旋翼翼型转捩特性中的应用

Zihai Geng; Jinsheng Cai; Weiguo Zhang; Junying Zhao

doi:10.3788/IRLA201948.0803002

红外成像与Michel 模型在旋翼翼型转捩特性中的应用

Translated title of the contribution: Application of infrared imaging and Michel model in rotor airfoil transition characteristics

Zihai Geng, Jinsheng Cai, Weiguo Zhang, Junying Zhao

School of Automation

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

1 Scopus citations

Abstract

Rotor airfoil design is the foundation of helicopter rotor design, and accurate calculation of aerodynamic characteristics is the key to the design of practical engineering airfoil. In the aerodynamic characteristics design process of airfoil, the infrared imaging non-contact measurement transition test technology was used to test the free transition position of OA309 rotor airfoil in a large φ3.2 m low-speed wind tunnel, and the influence of free transition position and free transition on aerodynamic force was calculated using the Michel model. By comparing the calculation and test results of OA309 rotor airfoil, it can be seen that the transition positions captured in the calculation are basically consistent with the test results. The joint application of infrared imaging non-contact measurement transition technology and Michel model improves the calculation accuracy of rotor airfoil resistance and lays a foundation for multi-objective airfoil design.

Translated title of the contribution	Application of infrared imaging and Michel model in rotor airfoil transition characteristics
Original language	Chinese (Traditional)
Article number	0803002
Journal	Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering
Volume	48
Issue number	8
DOIs	https://doi.org/10.3788/IRLA201948.0803002
State	Published - 25 Aug 2019

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title = "红外成像与Michel 模型在旋翼翼型转捩特性中的应用",

abstract = "Rotor airfoil design is the foundation of helicopter rotor design, and accurate calculation of aerodynamic characteristics is the key to the design of practical engineering airfoil. In the aerodynamic characteristics design process of airfoil, the infrared imaging non-contact measurement transition test technology was used to test the free transition position of OA309 rotor airfoil in a large φ3.2 m low-speed wind tunnel, and the influence of free transition position and free transition on aerodynamic force was calculated using the Michel model. By comparing the calculation and test results of OA309 rotor airfoil, it can be seen that the transition positions captured in the calculation are basically consistent with the test results. The joint application of infrared imaging non-contact measurement transition technology and Michel model improves the calculation accuracy of rotor airfoil resistance and lays a foundation for multi-objective airfoil design.",

keywords = "Infrared imaging, Michel model, Rotor airfoil, Transition characteristic",

author = "Zihai Geng and Jinsheng Cai and Weiguo Zhang and Junying Zhao",

year = "2019",

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day = "25",

doi = "10.3788/IRLA201948.0803002",

language = "繁体中文",

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journal = "Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering",

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T1 - 红外成像与Michel 模型在旋翼翼型转捩特性中的应用

AU - Geng, Zihai

AU - Cai, Jinsheng

AU - Zhang, Weiguo

AU - Zhao, Junying

PY - 2019/8/25

Y1 - 2019/8/25

N2 - Rotor airfoil design is the foundation of helicopter rotor design, and accurate calculation of aerodynamic characteristics is the key to the design of practical engineering airfoil. In the aerodynamic characteristics design process of airfoil, the infrared imaging non-contact measurement transition test technology was used to test the free transition position of OA309 rotor airfoil in a large φ3.2 m low-speed wind tunnel, and the influence of free transition position and free transition on aerodynamic force was calculated using the Michel model. By comparing the calculation and test results of OA309 rotor airfoil, it can be seen that the transition positions captured in the calculation are basically consistent with the test results. The joint application of infrared imaging non-contact measurement transition technology and Michel model improves the calculation accuracy of rotor airfoil resistance and lays a foundation for multi-objective airfoil design.

AB - Rotor airfoil design is the foundation of helicopter rotor design, and accurate calculation of aerodynamic characteristics is the key to the design of practical engineering airfoil. In the aerodynamic characteristics design process of airfoil, the infrared imaging non-contact measurement transition test technology was used to test the free transition position of OA309 rotor airfoil in a large φ3.2 m low-speed wind tunnel, and the influence of free transition position and free transition on aerodynamic force was calculated using the Michel model. By comparing the calculation and test results of OA309 rotor airfoil, it can be seen that the transition positions captured in the calculation are basically consistent with the test results. The joint application of infrared imaging non-contact measurement transition technology and Michel model improves the calculation accuracy of rotor airfoil resistance and lays a foundation for multi-objective airfoil design.

KW - Infrared imaging

KW - Michel model

KW - Rotor airfoil

KW - Transition characteristic

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DO - 10.3788/IRLA201948.0803002

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SN - 1007-2276

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JO - Hongwai yu Jiguang Gongcheng/Infrared and Laser Engineering

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ER -

红外成像与Michel 模型在旋翼翼型转捩特性中的应用

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