Discrete Adjoint Optimization Method for Low-Boom Aircraft Design Using Equivalent Area Distribution

Aerospace Pub Date : 2024-07-03 DOI:10.3390/aerospace11070545

Chuang Ma, Jiangtao Huang, Daochun Li, Jun Deng, Gang Liu, Lin Zhou, Cheng Chen

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Abstract

This paper introduces a low-boom aircraft optimization design method guided by equivalent area distribution, which effectively improves the intuitiveness and refinement of inverse design. A gradient optimization method based on discrete adjoint equations is proposed to achieve the fast solution of the gradient information of target equivalent area distribution relative to design variables and to drive the aerodynamic shape update to the optimal solution. An optimization experiment is carried out based on a self-developed supersonic civil aircraft configuration with engines. The results show that the equivalent area distribution adjoint equation can accurately solve the gradient information. After optimization, the sonic boom level of the aircraft was reduced by 13.2 PLdB, and the drag coefficient was reduced by 60.75 counts. Moreover, the equivalent area distribution adjoint optimization method has outstanding advantages, such as high sensitivity and fast convergence speed, and can take both the low sonic boom and the low drag force of the aircraft into account, providing a powerful tool for the comprehensive optimization design of supersonic civil aircraft by considering sonic boom and aerodynamic force.

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使用等效面积分布的低体型飞机设计离散临界优化法

本文介绍了一种以等效面积分布为指导的低轰飞机优化设计方法，有效提高了逆设计的直观性和精细化程度。提出了一种基于离散邻接方程的梯度优化方法，实现了目标等效面积分布相对于设计变量梯度信息的快速求解，并驱动气动外形更新至最优解。基于自主研发的带发动机超音速民用飞机构型进行了优化试验。结果表明，等效面积分布邻接方程能准确求解梯度信息。优化后，飞机的音爆水平降低了 13.2 PLdB，阻力系数降低了 60.75。此外，等效面积分布辅助优化方法具有灵敏度高、收敛速度快等突出优点，可同时兼顾飞机的低声爆和低阻力，为考虑声爆和气动力的超音速民用飞机综合优化设计提供了有力工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Aerospace

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