Multi-degree-of-freedom liner development: Concept to flight test

IF 1.2 4区工程技术 Q3 ACOUSTICS

International Journal of Aeroacoustics Pub Date : 2021-06-28 DOI:10.1177/1475472X211023860

D. Sutliff, D. Nark, Michael G. Jones

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引用次数: 2

Abstract

The emphasis on increased turbofan fuel efficiency requires advanced turbofan designs that will integrate higher engine bypass ratios and shorter nacelles. The resulting acoustic signature of these designs will have a more broadband character as well as a smaller available area for liner installation. This two-fold impact compels a need for an improvement in the state of the art in liner technology. Increasing the acoustic absorption efficacy over a broader frequency range is a means to address this need. An acoustic liner development and optimization process was conceived and employed to achieve and demonstrate an improved broadband liner design concept. A series of increasing technology readiness level liner studies were conducted to enhance the optimization methodology while validating the concept. This progression spanned several NASA Aeronautics Research Mission Directorate programs/projects due to its relevance. This article reviews the development and evaluation process of the multi-degree-of-freedom liner technology concept from formation through simple experimental models to a flight test over an approximate 10-year period, focusing on the discrete tests comprising the development.

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多自由度线性开发：飞行试验的概念

强调提高涡扇发动机燃油效率需要先进的涡扇发动机设计，该设计将集成更高的发动机旁通比和更短的短舱。这些设计所产生的声学特征将具有更宽带的特性以及用于衬垫安装的更小的可用面积。这种双重影响迫使人们需要改进衬垫技术的现有技术。在更宽的频率范围内提高吸声效率是解决这一需求的一种手段。设想并采用声学衬垫开发和优化过程来实现和演示改进的宽带衬垫设计概念。进行了一系列提高技术准备水平的线性研究，以在验证概念的同时增强优化方法。由于其相关性，这一进展跨越了美国国家航空航天局航空研究任务局的几个项目。本文回顾了多自由度班轮技术概念的发展和评估过程，从编队到简单的实验模型，再到大约10年的飞行测试，重点是包括发展在内的离散测试。

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

International Journal of Aeroacoustics ACOUSTICS-ENGINEERING, AEROSPACE

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： International Journal of Aeroacoustics is a peer-reviewed journal publishing developments in all areas of fundamental and applied aeroacoustics. Fundamental topics include advances in understanding aeroacoustics phenomena; applied topics include all aspects of civil and military aircraft, automobile and high speed train aeroacoustics, and the impact of acoustics on structures. As well as original contributions, state of the art reviews and surveys will be published. Subtopics include, among others, jet mixing noise; screech tones; broadband shock associated noise and methods for suppression; the near-ground acoustic environment of Short Take-Off and Vertical Landing (STOVL) aircraft; weapons bay aeroacoustics, cavity acoustics, closed-loop feedback control of aeroacoustic phenomena; computational aeroacoustics including high fidelity numerical simulations, and analytical acoustics.