考虑短舱安装参数的全机气动外形优化设计

Danyang Xu; Junqiang Bai; Ruiwu Lei

doi:10.7652/xjtuxb201904022

考虑短舱安装参数的全机气动外形优化设计

Translated title of the contribution: An Aerodynamic Shape Optimization Design of the Full Configuration Considering Nacelle Installation Parameters

Danyang Xu, Junqiang Bai, Ruiwu Lei

School of Aeronautics

Northwestern Polytechnical University Xian

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

1 Scopus citations

Abstract

An aerodynamic optimization research of multi-component coupling design is carried out for the aerodynamic interference and torque coupling problems in the full configuration. The components are parameterized by the multiblock free form deformation (FFD) method and Reynolds-averaged Navier-Stokes (RANS) method is used to evaluate the aerodynamics of the aircraft. The derivative of an aerodynamic objective function and geometric constraints on the large-scale design variables are obtained quickly and efficiently by using a discrete adjoint technique. Bases on a sequence quadratic programming algorithm (SQP), the aerodynamic optimization design considering the nacelle position change and tail-twist trimming is performed. Optimization result shows that the aerodynamic interference between the nacelle and the wing is slightly reduced, the design point resistance reduces by 3.82%, and the shock free pressure distribution is obtained.

Translated title of the contribution	An Aerodynamic Shape Optimization Design of the Full Configuration Considering Nacelle Installation Parameters
Original language	Chinese (Traditional)
Pages (from-to)	150-157
Number of pages	8
Journal	Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University
Volume	53
Issue number	4
DOIs	https://doi.org/10.7652/xjtuxb201904022
State	Published - 10 Apr 2019

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title = "考虑短舱安装参数的全机气动外形优化设计",

abstract = "An aerodynamic optimization research of multi-component coupling design is carried out for the aerodynamic interference and torque coupling problems in the full configuration. The components are parameterized by the multiblock free form deformation (FFD) method and Reynolds-averaged Navier-Stokes (RANS) method is used to evaluate the aerodynamics of the aircraft. The derivative of an aerodynamic objective function and geometric constraints on the large-scale design variables are obtained quickly and efficiently by using a discrete adjoint technique. Bases on a sequence quadratic programming algorithm (SQP), the aerodynamic optimization design considering the nacelle position change and tail-twist trimming is performed. Optimization result shows that the aerodynamic interference between the nacelle and the wing is slightly reduced, the design point resistance reduces by 3.82%, and the shock free pressure distribution is obtained.",

keywords = "Aerodynamic shape optimization, Discrete adjoint, Free form deformation, Nacelle installation parameter, Tail-twist trimming",

author = "Danyang Xu and Junqiang Bai and Ruiwu Lei",

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doi = "10.7652/xjtuxb201904022",

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T1 - 考虑短舱安装参数的全机气动外形优化设计

AU - Xu, Danyang

AU - Bai, Junqiang

AU - Lei, Ruiwu

PY - 2019/4/10

Y1 - 2019/4/10

N2 - An aerodynamic optimization research of multi-component coupling design is carried out for the aerodynamic interference and torque coupling problems in the full configuration. The components are parameterized by the multiblock free form deformation (FFD) method and Reynolds-averaged Navier-Stokes (RANS) method is used to evaluate the aerodynamics of the aircraft. The derivative of an aerodynamic objective function and geometric constraints on the large-scale design variables are obtained quickly and efficiently by using a discrete adjoint technique. Bases on a sequence quadratic programming algorithm (SQP), the aerodynamic optimization design considering the nacelle position change and tail-twist trimming is performed. Optimization result shows that the aerodynamic interference between the nacelle and the wing is slightly reduced, the design point resistance reduces by 3.82%, and the shock free pressure distribution is obtained.

AB - An aerodynamic optimization research of multi-component coupling design is carried out for the aerodynamic interference and torque coupling problems in the full configuration. The components are parameterized by the multiblock free form deformation (FFD) method and Reynolds-averaged Navier-Stokes (RANS) method is used to evaluate the aerodynamics of the aircraft. The derivative of an aerodynamic objective function and geometric constraints on the large-scale design variables are obtained quickly and efficiently by using a discrete adjoint technique. Bases on a sequence quadratic programming algorithm (SQP), the aerodynamic optimization design considering the nacelle position change and tail-twist trimming is performed. Optimization result shows that the aerodynamic interference between the nacelle and the wing is slightly reduced, the design point resistance reduces by 3.82%, and the shock free pressure distribution is obtained.

KW - Aerodynamic shape optimization

KW - Discrete adjoint

KW - Free form deformation

KW - Nacelle installation parameter

KW - Tail-twist trimming

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ER -

考虑短舱安装参数的全机气动外形优化设计

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