Data-Driven Modeling for Transonic Aeroelastic Analysis

IF 1.5 3区工程技术 Q2 ENGINEERING, AEROSPACE

Journal of Aircraft Pub Date : 2023-10-25 DOI:10.2514/1.c037409

Nicola Fonzi, Steven L. Brunton, Urban Fasel

引用次数: 0

Abstract

Aeroelasticity in the transonic regime is challenging because of the strongly nonlinear phenomena involved in the formation of shock waves and flow separation. In this work, we introduce a computationally efficient framework for accurate transonic aeroelastic analysis. We use dynamic mode decomposition with control to extract surrogate models from high-fidelity computational fluid dynamics (CFD) simulations. Instead of identifying models of the full flowfield or focusing on global performance indices, we directly predict the pressure distribution on the body surface. The learned surrogate models provide information about the system’s stability and can be used for control synthesis and response studies. Specific techniques are introduced to avoid spurious instabilities of the aerodynamic model. We use the high-fidelity CFD code SU2 to generate data and test our method on the benchmark supercritical wing. Our Python-based software is fully open source and will be included in the SU2 package to streamline the workflow from defining the high-fidelity aerodynamic model to creating a surrogate model for flutter analysis.

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跨声速气动弹性分析的数据驱动模型

由于激波形成和流动分离过程中存在强烈的非线性现象，跨声速气动弹性研究具有挑战性。在这项工作中，我们引入了一个计算效率高的框架，用于精确的跨音速气动弹性分析。我们使用带控制的动态模态分解从高保真计算流体动力学(CFD)模拟中提取代理模型。我们不需要识别全流场模型，也不需要关注全局性能指标，而是直接预测阀体表面的压力分布。学习到的代理模型提供了关于系统稳定性的信息，可以用于控制综合和响应研究。介绍了避免气动模型伪不稳定性的具体技术。我们使用高保真CFD代码SU2生成数据，并在基准超临界机翼上测试了我们的方法。我们基于python的软件是完全开源的，将包含在SU2包中，以简化从定义高保真空气动力学模型到创建颤振分析代理模型的工作流程。

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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来源期刊

Journal of Aircraft 工程技术-工程：宇航

CiteScore

4.50

自引率

31.80%

发文量

141

审稿时长

6 months

期刊介绍： This Journal is devoted to the advancement of the applied science and technology of airborne flight through the dissemination of original archival papers describing significant advances in aircraft, the operation of aircraft, and applications of aircraft technology to other fields. The Journal publishes qualified papers on aircraft systems, air transportation, air traffic management, and multidisciplinary design optimization of aircraft, flight mechanics, flight and ground testing, applied computational fluid dynamics, flight safety, weather and noise hazards, human factors, airport design, airline operations, application of computers to aircraft including artificial intelligence/expert systems, production methods, engineering economic analyses, affordability, reliability, maintainability, and logistics support, integration of propulsion and control systems into aircraft design and operations, aircraft aerodynamics (including unsteady aerodynamics), structural design/dynamics , aeroelasticity, and aeroacoustics. It publishes papers on general aviation, military and civilian aircraft, UAV, STOL and V/STOL, subsonic, supersonic, transonic, and hypersonic aircraft. Papers are sought which comprehensively survey results of recent technical work with emphasis on aircraft technology application.

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