Studying the Relationship Between Aircraft Stability and Shape Based on Hydrodynamics-Reference-Cited by-同舟云学术

Studying the Relationship Between Aircraft Stability and Shape Based on Hydrodynamics

Published:2023-03-18 Issue: Volume:37 Page:339-344
ISSN:2791-0210
Container-title:Highlights in Science, Engineering and Technology
language:
Short-container-title:HSET

Author:

Ding Tianyi,Lv Chenlai,Wang Zihan

Abstract

In recent years, with the rapid development of industrial technology, the application of fluid mechanics in the industrial field has become more and more frequent and has been well developed. Of course, more and more scholars gradually pay attention to the development and application of fluid mechanics. As an important means of transportation in daily life, aircraft plays an important role in both civil and military affairs. The development of fluid mechanics has made an important contribution to solving the problems of aircraft design and stability. In this paper, the application and research status of hydrodynamics in aircraft design will be reviewed by means of literature analysis. At the same time, the application of hydrodynamics in aircraft design and life will be reviewed from many aspects, and the future development trend of hydrodynamics will be prospected. So far, there are many difficulties and hotspots in the development of fluid mechanics, and this paper will focus on these contents. I hope it can provide direction for its later development.

Publisher

Darcy & Roy Press Co. Ltd.

Reference11 articles.

1. Wang L., Yin H., Yang K. (2020) Calculation method of amphibious aircraft taking off performance on water based on digital virtual flight. Chinese Journal of Aviation: English Edition, 20: 201.

2. Kang W., Li H. (2022) Model based design method of aircraft ground deceleration system architecture. Civil Aircraft Design and Research, 22(3): 32-40.

3. Hu J., Wu J., Tuo C., Zhang H., Hu X., Shen E. (2022) Design and application of 3D printed aircraft flutter wind tunnel test model. Aerospace Science and Technology, 33(9): 43-50.

4. Rominger J T., Lightbody A F., Nepf H M. (2010) Effects of Added Vegetation on Sand Bar Stability and Stream Hydrodynamics. Journal of hydraulic engineering, 10(12): 136.

5. Smith A., Giesing J P., Hess J L. (2010) Calculation of Waves and Wave Resistance for Bodies Moving on or Beneath the Surface of the Sea. Hydrodynamics, 19: 63.