Noise Sources of Modern Aircraft

Authors

  • Ruzmatov Rustam Alidjanovich Faculty Teacher Advanced Qualification of Aviation Specialists Higher Military Aviation Institute, Republic Uzbekistan

Keywords:

Trustworthiness of aviation specialists, Flight safety, Air transport operations, Sound-absorbing structures, Jet engine nozzles

Abstract

This study examines noise sources in modern aircraft, focusing on gas turbine engines, aerodynamic noise, and aircraft systems. Despite advancements in aircraft design, noise pollution remains a persistent problem affecting communities near airports, passengers, and aviation personnel. A gap exists in understanding the effectiveness of current noise reduction technologies and their impact on safety and comfort. The research aims to analyze key noise sources and evaluate noise mitigation strategies through detailed assessments of engine components, airflow, and cabin systems. Results indicate that while noise has been reduced, challenges remain, particularly in jet stream and aerodynamic noise. Promising innovations, such as sound-absorbing materials and optimized engine designs, offer potential solutions. These findings highlight the need for continued research to improve aviation safety, passenger comfort, and community well-being.

References

P. A. Moshkov and V. F. Samokhin, "Integral Model of Noise from Light Aircraft Power Units," Bulletin of the Moscow Aviation Institute, vol. 23, no. 4, pp. 36-44, 2016.

V. F. Kopiev, M. Yu. Zaytsev, and I. V. Belyaev, "Study of Aerodynamic Noise of Large-Scale Models of Wings with Mechanization," Acoustic Journal, vol. 62, no. 1, pp. 95-95, 2016.

V. F. Kopiev, M. Yu. Zaytsev, I. V. Belyaev, and G. A. Faranosov, "Noise of Modern Aircraft on Landing: Laboratory and Flight Experiments," in Proceedings of the Sixth All-Russian Open (XVIII Scientific-Technical) Conference on Aeroacoustics, pp. 59-60, 2023.

L. A. Rybinskaya, R. V. Bulbovich, and V. I. Kychkin, "Efficiency of Methods for Reducing the Noise of Turbulent Jets," Bulletin of Perm National Research Polytechnic University: Aerospace Engineering, vol. 1, no. 48, pp. 104-119, 2017.

I. V. Belyaev and G. A. Faranosov, "Evaluation of the Effect of Installation Angle on the Noise of Jet-Wing Interaction," Acoustics of the Living Environment, pp. 56-62, 2021.

S. F. Seregin and V. V. Kharitonov, "Aktualnye Voprosy Sovershenstvovaniya Sistemy Bezopasnosti Poletov," Problemy Bezopasnosti Poletov, 2016.

V. N. Zinkin, S. K. Soldatov, P. M. Sheshegov, Yu. A. Chumanov, and V. V. Kharitonov, "Shum Kak Faktor Riska Snizheniya Rabotosposobnosti i Professionalnoi Nadezhnosti Aviatsionnykh Spetsialistov," Problemy Bezopasnosti Poletov, 2014.

N. I. Ivanov, Inzhenernaya Akustika. Teoriya i Praktika Borby s Shumom, Moscow: Universitetskaya Kniga, Logos, 2016.

P. A. Moshkov, "Klassifikatsiya Istochnikov Shuma Legkikh Vintovykh Samoletov na Mestnosti," Nauchno-Tekhnicheskiy Vestnik Povolzhya, no. 4, pp. 101-106, 2015.

V. F. Kopiev, M. Yu. Zaytsev, and I. V. Belyaev, "Issledovanie Shuma Obtekaniya Krupnomasshtabnoi Modeli Kryla s Mekhanizatsiei," Akusticheskiy Zhurnal, vol. 62, no. 1, pp. 95-95, 2016.

V. G. Dmitriev and V. F. Samokhin, "Kompleks Algoritmov i Programm dlya Rascheta Shuma Samoletov na Mestnosti," Uchenye Zapiski TsAGI, vol. 45, no. 2, pp. 136-157, 2014.

P. A. Moshkov, "Problemy Proektirovaniya Grazhdanskikh Samoletov s Uchetom Trebovanii po Shumu v Salone," Vestnik Moskovskogo Aviatsionnogo Instituta, vol. 26, no. 4, pp. 28-41, 2019.

V. F. Kopiev, I. V. Belyaev, O. P. Bychkov, M. Yu. Zaytsev, and G. A. Faranosov, "Shum Sovremennogo Samoleta na Posadke: Laboratornye Eksperimenty i Letnye Ispytaniya," in Proceedings of the Sixth All-Russian Open (XVIII Scientific-Technical) Conference on Aeroacoustics, pp. 59-60, 2023.

V. F. Kopiev, M. Yu. Zaytsev, S. A. Velichko, and V. A. Matveev, "Lokalizatsiya i Ranzhirovanie Istochnikov Shuma Sovremennogo Passazhirskogo Samoleta v Naturnom Letnom Eksperimente," in Proceedings of the Sixth All-Russian Open (XVIII Scientific-Technical) Conference on Aeroacoustics, pp. 59-60, 2019.

V. G. Dmitriev and V. F. Samokhin, "Sovremennye Metody Snizheniya Shuma Samoletov na Mestnosti," in Proceedings of the XVII School-Seminar on Aerodynamics of Aircraft, pp. 50-50, 2006.

V. Ch. Tuan and V. I. Ryabkov, "Neobkhodimost i Puti Snizheniya Shuma Agregatov Samoleta," 2012.

O. P. Bychkov and G. A. Faranosov, "Otsenka Vliyaniya Uglov Ustanovki na Shum Vzaimodeistviya Strui i Kryla Samoleta," in Acoustics of the Living Environment, pp. 56-62, 2021.

A. I. Zaporozhets and G. G. Golembievsky, "Vliyanie Ekspluatatsionnykh Faktorov na Urovni Aviatsionnogo Shuma," Visnik KMUCA, vol. 3-4, 2000.

L. A. Rybinskaya, R. V. Bulbovich, and V. I. Kychkin, "Effektivnost Metodov Snizheniya Shuma Turbulentnykh Strui," Vestnik Permskogo Natsionalnogo Issledovatelskogo Politekhnicheskogo Universiteta: Aerokosmicheskaya Tekhnika, vol. 1, no. 48, pp. 104-119, 2017.

P. A. Moshkov and V. F. Samokhin, "Integralnaya Model Shuma Silovoi Ustanovki Legkogo Vintovogo Samoleta," Vestnik Moskovskogo Aviatsionnogo Instituta, vol. 23, no. 4, pp. 36-44, 2016.

Downloads

Published

2024-10-04

How to Cite

Alidjanovich, R. R. (2024). Noise Sources of Modern Aircraft. International Journal of Innovative Analyses and Emerging Technology, 4(4), 27–34. Retrieved from https://oajournals.net/index.php/ijiaet/article/view/2670

Issue

Section

Articles

Similar Articles

<< < 1 2 3 4 5 6 

You may also start an advanced similarity search for this article.