Preliminary Noise Assessment of Aircraft with Distributed Electric Propulsion

2018 AIAA/CEAS Aeroacoustics Conference Pub Date : 2018-06-24 DOI:10.2514/6.2018-2817

Athanasios P. Synodinos, R. Self, Antonio J. Torija

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引用次数: 12

Abstract

Electric and hybrid-electric propulsion technologies in aviation are becoming more attractive for aviation stakeholders not only due to the resulting reduction or elimination of the dependency on oil, whose availability and price are uncertain, but also because they are more reliable and efficient than traditional internal combustion engines. Moreover, combined with distributed electric propulsion (DEP), these technologies have shown potential in significantly reducing civil aircraft community noise impact and contribute towards delivering the strict mid-to-long-term environmental goals set by organisations worldwide, such as ACARE and NASA. This paper examines the noise impact of a concept tube and wing aircraft that falls in the A320 category and features various DEP systems using different power supply units (turboshaft engines or batteries) and number of electric propulsors. Meanwhile, considerations required for the transition from conventional to electric propulsion are discussed. Estimated Noise-Power-Distance (NPD) curves and noise exposure contour maps are also presented. It is concluded that indeed, the propulsors’ number is a key parameter for optimising the environmental performance of DEP aircraft and hence maximising the noise benefits. Also, it is shown that based on the entry into service year (2035) technology, totally electric aircraft tend to have a larger noise footprint than aircraft using hybrid electric propulsion systems.

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分布式电力推进飞机噪声初步评价

航空领域的电动和混合动力推进技术对航空利益相关者越来越有吸引力，这不仅是因为它减少或消除了对石油的依赖(石油的可用性和价格都不确定)，还因为它们比传统的内燃机更可靠、更高效。此外，结合分布式电力推进(DEP)，这些技术已经显示出显著减少民用飞机社区噪音影响的潜力，并有助于实现全球组织(如ACARE和NASA)设定的严格的中长期环境目标。本文研究了属于A320类别的概念管翼飞机的噪音影响，并采用了使用不同电源单元(涡轴发动机或电池)和电动推进器的各种DEP系统。同时，讨论了从常规推进向电力推进过渡所需要考虑的问题。给出了噪声-功率-距离估计曲线和噪声暴露等值线图。结论是，推进器的数量是优化DEP飞机环境性能的关键参数，从而使噪音效益最大化。此外，基于进入服役年(2035年)的技术，全电动飞机往往比使用混合动力推进系统的飞机具有更大的噪声足迹。

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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2018 AIAA/CEAS Aeroacoustics Conference

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