Multipolar expansion for aircraft noise equivalent sources

IF 5 1区 工程技术 Q1 ENGINEERING, AEROSPACE
Giorgio Palma , Lorenzo Burghignoli , Caterina Poggi , Jacopo Serafini
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引用次数: 0

Abstract

Noise generated by aviation poses serious threats to its future development. Noise abatement is pursued by reducing noise at the source and using correct operation practices and farsighted land planning. Since noise evaluation is a computationally demanding process, developing fast techniques is crucial for that noise abatement effort. Widely used approaches separate near-field noise from far-field noise, using the optical analogy or other simplified techniques to radiate to the ground the noise evaluated in the near-field by high-fidelity models, including atmospheric and geographic effects. Here, we propose a multipolar expansion to define equivalent noise sources that can be quickly evaluated to simulate the perceived noise also in proximity of the source. This gives many advantages, such as introducing atmospheric effects closer to the source and using equivalent engine sources in fuselage scattering problems. The expansion is tested against numerical and experimental test cases of aeronautical interest. The results show that the expansion effectively reproduces noise at different distances than that used to train the equivalent source. When the emitted noise is dominated by rotary sources, the method correctly reproduces the amplitude but not the phase of the signals.

Abstract Image

飞机噪声等效源的多极扩展
航空产生的噪音对其未来发展构成严重威胁。降噪的方法是从源头上减少噪音,并采用正确的操作方法和有远见的土地规划。由于噪声评估是一个计算要求很高的过程,因此开发快速技术对噪声控制工作至关重要。广泛使用的方法是将近场噪声与远场噪声分开,使用光学类比或其他简化技术,将通过高保真模型(包括大气和地理效应)评估的近场噪声辐射到地面。在这里,我们提出了一种多极扩展方法来定义等效噪声源,可以快速评估模拟噪声源附近的感知噪声。这样做有很多好处,例如可以在更靠近声源的地方引入大气效应,在机身散射问题中使用等效发动机声源。针对航空领域的数值和实验测试案例对扩展进行了测试。结果表明,与用于训练等效源的距离相比,扩展有效地再现了不同距离上的噪声。当发射噪声以旋转源为主时,该方法能正确再现信号的振幅,但不能再现信号的相位。
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来源期刊
Aerospace Science and Technology
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.
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