Trim optimizations of an adaptive tailless aircraft with composite wing

Jiang Xie; Zhi Chun Yang; Shi Jun Guo

doi:10.4028/www.scientific.net/AMR.213.334

Trim optimizations of an adaptive tailless aircraft with composite wing

Jiang Xie, Zhi Chun Yang, Shi Jun Guo

航空学院

科研成果: 书/报告/会议事项章节 › 会议稿件 › 同行评审

摘要

This paper investigates aeroelastic tailoring and optimal trailing edge control surface deflection to minimize induced drag for a HALE UAV flying wing configuration. The analysis process is conducted on the Finite Element(FE) model of a composite slender wing. Genetic Algorithm(GA) is employed to aeroelastically tailor the wing by setting the composite ply orientation. The study examined conformal and traditional flaps and explored two optimization formulations to minimize drag. The impacts of the conformal control surface are recognized as required deflection saving which can be translated to drag reduction. The results also show that the control demands for the optimal trim can be further reduced if the wing is properly tailored.

源语言	英语
主期刊名	Advanced Materials Research
页	334-338
页数	5
DOI	https://doi.org/10.4028/www.scientific.net/AMR.213.334
出版状态	已出版 - 2011
活动	2011 International Conference on Advanced Material Research, ICAMR 2011 - Chongqing, 中国期限: 21 1月 2011 → 23 1月 2011

出版系列

姓名	Advanced Materials Research
卷	213
ISSN（印刷版）	1022-6680

会议

会议	2011 International Conference on Advanced Material Research, ICAMR 2011
国家/地区	中国
市	Chongqing
时期	21/01/11 → 23/01/11

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10.4028/www.scientific.net/AMR.213.334

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@inproceedings{094f8b2381d1458ba48f35634e65e9eb,

title = "Trim optimizations of an adaptive tailless aircraft with composite wing",

abstract = "This paper investigates aeroelastic tailoring and optimal trailing edge control surface deflection to minimize induced drag for a HALE UAV flying wing configuration. The analysis process is conducted on the Finite Element(FE) model of a composite slender wing. Genetic Algorithm(GA) is employed to aeroelastically tailor the wing by setting the composite ply orientation. The study examined conformal and traditional flaps and explored two optimization formulations to minimize drag. The impacts of the conformal control surface are recognized as required deflection saving which can be translated to drag reduction. The results also show that the control demands for the optimal trim can be further reduced if the wing is properly tailored.",

keywords = "Active aeroeiastic wing, Adaptive wing, Aeroeiastic tailoring, Inaucea drag, Trim optimization",

author = "Jiang Xie and Yang, {Zhi Chun} and Guo, {Shi Jun}",

year = "2011",

doi = "10.4028/www.scientific.net/AMR.213.334",

language = "英语",

isbn = "9783037850619",

series = "Advanced Materials Research",

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booktitle = "Advanced Materials Research",

note = "2011 International Conference on Advanced Material Research, ICAMR 2011 ; Conference date: 21-01-2011 Through 23-01-2011",

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AU - Xie, Jiang

AU - Yang, Zhi Chun

AU - Guo, Shi Jun

PY - 2011

Y1 - 2011

N2 - This paper investigates aeroelastic tailoring and optimal trailing edge control surface deflection to minimize induced drag for a HALE UAV flying wing configuration. The analysis process is conducted on the Finite Element(FE) model of a composite slender wing. Genetic Algorithm(GA) is employed to aeroelastically tailor the wing by setting the composite ply orientation. The study examined conformal and traditional flaps and explored two optimization formulations to minimize drag. The impacts of the conformal control surface are recognized as required deflection saving which can be translated to drag reduction. The results also show that the control demands for the optimal trim can be further reduced if the wing is properly tailored.

AB - This paper investigates aeroelastic tailoring and optimal trailing edge control surface deflection to minimize induced drag for a HALE UAV flying wing configuration. The analysis process is conducted on the Finite Element(FE) model of a composite slender wing. Genetic Algorithm(GA) is employed to aeroelastically tailor the wing by setting the composite ply orientation. The study examined conformal and traditional flaps and explored two optimization formulations to minimize drag. The impacts of the conformal control surface are recognized as required deflection saving which can be translated to drag reduction. The results also show that the control demands for the optimal trim can be further reduced if the wing is properly tailored.

KW - Active aeroeiastic wing

KW - Adaptive wing

KW - Aeroeiastic tailoring

KW - Inaucea drag

KW - Trim optimization

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U2 - 10.4028/www.scientific.net/AMR.213.334

DO - 10.4028/www.scientific.net/AMR.213.334

M3 - 会议稿件

AN - SCOPUS:79952377835

SN - 9783037850619

T3 - Advanced Materials Research

SP - 334

EP - 338

BT - Advanced Materials Research

T2 - 2011 International Conference on Advanced Material Research, ICAMR 2011

Y2 - 21 January 2011 through 23 January 2011

ER -

Trim optimizations of an adaptive tailless aircraft with composite wing

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