空气动力学未来的挑战和机遇

IF 1.4 4区工程技术 Q2 ENGINEERING, AEROSPACE

Aeronautical Journal Pub Date : 2000-08-01 DOI:10.1017/S0001924000064009

Ajay Mahaputra Kumar, Jerry, N.

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引用次数: 31

摘要

在过去十年中，航空研究和技术方面的投资大幅下降，部分原因是人们认为飞机设计所需的技术相当成熟且容易获得。这种看法是由这样一个事实所驱动的，即飞机的配置，特别是运输机，在过去的几十年里只是逐步发展的。然而，如果考虑到未来20年航空旅行的增长预计将增长两倍，很明显，技术的进化发展将无法满足对安全性、环境兼容性、容量和经济可行性日益增长的需求。相反，在空气动力学、推进、结构、材料、控制和航空电子等传统学科以及将这些技术整合到未来航空航天飞行器概念设计中的多学科领域，都需要突破性的技术。本文讨论了未来十年空气动力学领域的挑战和机遇。未来空气动力学技术的进步将取决于我们理解、模拟和控制复杂的、三维的、非定常的、跨越速度范围的粘性流动的能力。这种理解对于开发创新的流量和噪声控制技术以及先进的设计工具至关重要，这些工具将彻底改变未来的航空航天飞行器系统和概念。具体而言，本文侧重于先进的车辆概念，流量和噪声控制技术，以及先进的设计和分析工具。

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Future challenges and opportunities in aerodynamics

Abstract Investments in aeronautics research and technology have declined substantially over the last decade, in part due to the perception that technologies required in aircraft design are fairly mature and readily available. This perception is being driven by the fact that aircraft configurations, particularly the transport aircraft, have evolved only incrementally over the last several decades. If, however, one considers that the growth in air travel is expected to triple in the next 20 years, it becomes quickly obvious that the evolutionary development of technologies is not going to meet the increased demands for safety, environmental compatibility, capacity, and economic viability. Instead, breakthrough technologies will be required both in traditional disciplines of aerodynamics, propulsion, structures, materials, controls and avionics as well as in the multidisciplinary integration of these technologies into the design of future aerospace vehicles concepts. The paper discusses challenges and opportunities in the field of aerodynamics over the next decade. Future technology advancements in aerodynamics will hinge on our ability to understand, model and control complex, three-dimensional, unsteady viscous flow across the speed range. This understanding is critical for developing innovative flow and noise control technologies and advanced design tools that will revolutionise future aerospace vehicle systems and concepts. Specifically, the paper focuses on advanced vehicle concepts, flow and noise control technologies, and advanced design and analysis tools.

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来源期刊

Aeronautical Journal 工程技术-工程：宇航

CiteScore

3.70

自引率

14.30%

发文量

审稿时长

6-12 weeks

期刊介绍： The Aeronautical Journal contains original papers on all aspects of research, design and development, construction and operation of aircraft and space vehicles. Papers are therefore solicited on all aspects of research, design and development, construction and operation of aircraft and space vehicles. Papers are also welcomed which review, comprehensively, the results of recent research developments in any of the above topics.