Multi-point aero-structural design optimization of wings considering drag-divergence constraints

Q3 Engineering
Yu Zhang, J. Bai, Feng Qu
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引用次数: 0

Abstract

Considering the drag-divergence performance as a constraint, this paper presents a multi-point aero-structural design optimization of wings on a wing-body-tail-engine configuration of long-range dual-aisle civil aircraft by using a gradient-based method based on the discrete adjoint method. Firstly, the accuracy of the coupled aero-structural analysis method used in this paper was validated with DLR-F6 wing-body configuration. Then a wing aero-structural design optimization based on a dual-aisle civil aircraft is offered. The drag coefficient of the optimized configuration in every state decreased, which was reduced by 13.67 counts at the cruise condition, the difference in drag coefficient from Mach 0.85 to Mach 0.87 was decreased from 28.52 counts to 18.98 counts, indicating its drag-divergence performance has been improved undoubtedly. Finally, we compared the performance among the multi-point aero-structural optimized configuration, the single-point aerodynamic optimized configuration and the single-point structural optimized configuration. The results show that the multi-point aero-structural design optimization considering drag-divergence performance has great potential to gain a design configuration with better comprehensive and practical performance compared with a single-point optimization in a single discipline.
考虑阻力发散约束的机翼多点气动结构优化设计
以阻力发散性能为约束条件,采用基于离散伴随法的梯度法,对远程双通道民用飞机翼身尾机构型的机翼进行了多点气动结构设计优化。首先,以DLR-F6翼身结构为例,验证了本文所采用的耦合气动结构分析方法的准确性。在此基础上,提出了一种基于双通道民用飞机的机翼气动结构优化设计方法。优化后的构型在各状态下阻力系数均有所降低,巡航状态下阻力系数降低了13.67个计数,从0.85马赫到0.87马赫的阻力系数差从28.52个计数降低到18.98个计数,表明其阻力发散性能无疑得到了提高。最后,比较了多点气动结构优化构型、单点气动结构优化构型和单点结构优化构型的性能。结果表明,考虑阻力发散性能的多点气动结构设计优化比单学科的单点优化更有可能获得综合性能和实用性能更好的设计构型。
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来源期刊
西北工业大学学报
西北工业大学学报 Engineering-Engineering (all)
CiteScore
1.30
自引率
0.00%
发文量
6201
审稿时长
12 weeks
期刊介绍:
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