精确预测复杂转子结构噪声的准紧凑模型

IF 3.4 2区物理与天体物理 Q1 ACOUSTICS

Applied Acoustics Pub Date : 2025-07-10 DOI:10.1016/j.apacoust.2025.110928

F. Caccia , L. Galimberti , L. Abergo , A. Savino , A. Zanotti , M. Parsani , A. Guardone

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引用次数: 0

摘要

城市空中机动系统的设计需要对螺旋桨相互作用进行快速而准确的气动和声学分析。通常使用依赖紧凑F1A公式的低保真度求解器，但紧凑声学假设不适用于非定常流入产生的加载噪声。本文介绍了一种适用于分离和串列相互作用螺旋桨的准紧凑声学模型，并将其与其他混合求解器的性能进行了比较。准紧模型将用非线性涡格气动解计算得到的局域弦向和跨向压力跃变分布传播给远场观测者。紧凑模型通过只使用跨分布简化了这一点。参考解是通过使用相同的Ffowcs williams - hawkins求解器向远场观测者传播高保真CFD压力场来生成的。结果表明，紧致公式只对孤立螺旋桨具有收敛性，而准紧致公式在旋翼-旋翼相互作用下也具有收敛性，且与参考的高保真数据相比具有更好的收敛性。

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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Quasi-compact model for accurate noise prediction of complex rotor configurations

The design of urban air mobility systems requires fast yet accurate aerodynamic and acoustic analyses of propeller interactions. Low-fidelity solvers relying on compact F1A formulations are commonly used, but the compact acoustic assumption does not hold for loading noise produced by unsteady inflows. This study introduces a quasi-compact acoustic model applied to isolated and tandem interacting propellers comparing its performance against other hybrid solvers. The quasi-compact model propagates the local chord-wise and span-wise pressure jump distribution computed with a non-linear vortex-lattice aerodynamic solution to far-field observers. Compact models simplify this by using the span-wise distribution only. Reference solutions are generated by propagating high-fidelity CFD pressure fields to far-field observers using the same Ffowcs Williams-Hawkings solver. Results demonstrate that the compact formulation achieves convergence only for isolated propellers, whereas the quasi-compact formulation can provide converged solutions also with rotor-rotor interactions and compares better with the reference high-fidelity data.

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来源期刊

Applied Acoustics 物理-声学

CiteScore

7.40

自引率

11.80%

发文量

618

审稿时长

7.5 months

期刊介绍： Since its launch in 1968, Applied Acoustics has been publishing high quality research papers providing state-of-the-art coverage of research findings for engineers and scientists involved in applications of acoustics in the widest sense. Applied Acoustics looks not only at recent developments in the understanding of acoustics but also at ways of exploiting that understanding. The Journal aims to encourage the exchange of practical experience through publication and in so doing creates a fund of technological information that can be used for solving related problems. The presentation of information in graphical or tabular form is especially encouraged. If a report of a mathematical development is a necessary part of a paper it is important to ensure that it is there only as an integral part of a practical solution to a problem and is supported by data. Applied Acoustics encourages the exchange of practical experience in the following ways: • Complete Papers • Short Technical Notes • Review Articles; and thereby provides a wealth of technological information that can be used to solve related problems. Manuscripts that address all fields of applications of acoustics ranging from medicine and NDT to the environment and buildings are welcome.