Multidisciplinary Optimization for Active Aero-elastic Morphing Wings

This paper presents a multidisciplinary optimization design for aero-elastic morphing regional jet wings in an integrated design system. In terms of aircrafts' design requirements, we provide an optimization scheme including airfoil, structure parameter and pre-deformation shape (jig shape). Th...

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Published inChinese Control Conference pp. 9748 - 9753
Main Authors Zhang, Hao, Sun, Ruisheng, Zhao, Ri
Format Conference Proceeding
LanguageEnglish
Published Technical Committee on Control Theory, Chinese Association of Automation 01.07.2018
Subjects
Aero-elastic morphing wings
Aerodynamic inverse optimal design
Aerodynamics
Couplings
Finite element analysis
Fixtures
Multidisciplinary optimal design
Optimization
Shape
Strain
Online AccessGet full text
ISSN1934-1768
DOI10.23919/ChiCC.2018.8483948

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Abstract This paper presents a multidisciplinary optimization design for aero-elastic morphing regional jet wings in an integrated design system. In terms of aircrafts' design requirements, we provide an optimization scheme including airfoil, structure parameter and pre-deformation shape (jig shape). The ideal wing shape is optimized to reach minimum lift-induced drag and minimum wing weight through aerodynamic, structural and aero-elastic subsystems. The aerodynamic subsystem, based on an inverse vertex lattice method, is utilized to find the optimal mean camber as well as wing twist subject to both aerodynamic performance and minimum lift-induced drag. The structural subsystem takes Lagrange method to optimize morphing wing structure for minimum wingbox weight in the condition of deformation constraints. Aerodynamic force is loaded to the current wing structure in the aero-elastic subsystem, which optimizes current shape to jig shape. The analysis results of the application case illustrate that the desired active aero-elastic morphing wing scheme is successfully achieved through the proposed multidisciplinary optimization design.
AbstractList This paper presents a multidisciplinary optimization design for aero-elastic morphing regional jet wings in an integrated design system. In terms of aircrafts' design requirements, we provide an optimization scheme including airfoil, structure parameter and pre-deformation shape (jig shape). The ideal wing shape is optimized to reach minimum lift-induced drag and minimum wing weight through aerodynamic, structural and aero-elastic subsystems. The aerodynamic subsystem, based on an inverse vertex lattice method, is utilized to find the optimal mean camber as well as wing twist subject to both aerodynamic performance and minimum lift-induced drag. The structural subsystem takes Lagrange method to optimize morphing wing structure for minimum wingbox weight in the condition of deformation constraints. Aerodynamic force is loaded to the current wing structure in the aero-elastic subsystem, which optimizes current shape to jig shape. The analysis results of the application case illustrate that the desired active aero-elastic morphing wing scheme is successfully achieved through the proposed multidisciplinary optimization design.
Author Sun, Ruisheng
Zhang, Hao
Zhao, Ri
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  organization: China Academy of Launch Vehicle Technology, Beijing, 100076, China
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Snippet This paper presents a multidisciplinary optimization design for aero-elastic morphing regional jet wings in an integrated design system. In terms of aircrafts'...
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StartPage 9748
SubjectTerms Aero-elastic morphing wings
Aerodynamic inverse optimal design
Aerodynamics
Couplings
Finite element analysis
Fixtures
Multidisciplinary optimal design
Optimization
Shape
Strain
Title Multidisciplinary Optimization for Active Aero-elastic Morphing Wings
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