多保真度和多目标贝叶斯优化飞机推进用氢气-空气喷射器

IF 5 1区工程技术 Q1 ENGINEERING, AEROSPACE

Aerospace Science and Technology Pub Date : 2024-07-15 DOI:10.1016/j.ast.2024.109383

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引用次数: 0

摘要

使用氢气作为燃料是减少民用航空排放的一种可行方法，但这需要为燃烧室开发全新的喷射器。由于现有计算能力的提高，现在可以将优化技术与 CFD 计算相结合来开发这些喷射器。在优化方法中，当优化问题的目标函数和约束条件的评估成本较高时，贝叶斯优化法就显得尤为重要。此外，使用多保真度策略可以降低贝叶斯方法的模拟成本。因此，本文研究了多保真度和多目标贝叶斯方法的应用，以提高实验室漩涡喷射器的性能，该喷射器使用氢气，工作条件接近工业目标。这项优化研究结合了作为高保真模型的 LES 仿真和作为低保真模型的 2D RANS 仿真。

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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Multifidelity & multi-objective Bayesian optimization of hydrogen-air injectors for aircraft propulsion

The use of hydrogen as a fuel is a promising way to reduce the emissions of civil aviation but it requires the development of wholly new injectors for the combustion chamber. Thanks to the increase in available computing power, the application of optimization techniques combined with CFD computations is now possible to develop these injectors. Among the optimization approaches, Bayesian optimization is particularly relevant when the objective functions and constraints of the optimization problem are expensive to evaluate which is the case in CFD-based optimization. Besides, the use of a multifidelity strategy allows to reduce the simulation cost of the Bayesian method. Therefore, this paper investigates the application of a multifidelity and multi-objective Bayesian approach to improve the performances of a laboratory swirl injector using hydrogen and operating in conditions close to industrial targets. This optimization study combines LES simulations as high-fidelity model with 2D RANS simulations as low-fidelity.

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来源期刊

Aerospace Science and Technology 工程技术-工程：宇航

CiteScore

10.30

自引率

28.60%

发文量

654

审稿时长

54 days

期刊介绍： Aerospace Science and Technology publishes articles of outstanding scientific quality. Each article is reviewed by two referees. The journal welcomes papers from a wide range of countries. This journal publishes original papers, review articles and short communications related to all fields of aerospace research, fundamental and applied, potential applications of which are clearly related to: • The design and the manufacture of aircraft, helicopters, missiles, launchers and satellites • The control of their environment • The study of various systems they are involved in, as supports or as targets. Authors are invited to submit papers on new advances in the following topics to aerospace applications: • Fluid dynamics • Energetics and propulsion • Materials and structures • Flight mechanics • Navigation, guidance and control • Acoustics • Optics • Electromagnetism and radar • Signal and image processing • Information processing • Data fusion • Decision aid • Human behaviour • Robotics and intelligent systems • Complex system engineering. Etc.