Evaluation of the effect of airplanes on the environment on the example of Boeing 747 and Boeing 757

Authors

DOI:

https://doi.org/10.15587/2706-5448.2024.306220

Keywords:

emissions, Boeing aircraft, environment, noise pollution, environmental pollution

Abstract

The object of research is the impact of airplanes on the environment. Aviation is an area of our life that has been developing faster and faster every year for more than a century. Accordingly, aircraft have a negative impact on the surrounding natural environment, and therefore the assessment of their impact on nature and people is an important and integral component of research in the field of ecology and sustainable development. In particular, the airplanes produced by Boeing are among those that are most widely used in both passenger and cargo air transportation, so a study was conducted on their example.

In the study, calculation methods were used to estimate the load on the surrounding natural environment from the operation of Boeing 747 and Boeing 757 aircraft, based on the declared characteristics of emissions from the engines of these aircraft.

The study shows that every aircraft has a certain negative impact on the environment due to the emission of pollutants during all phases of flight. However, there are opportunities to minimize this impact by implementing more complete fuel combustion, replacing standard fuels such as aviation kerosene with more modern fuels, reducing the weight of the aircraft, which will lead to lower fuel consumption and, accordingly, lower emissions into the atmosphere. Also effective is the introduction of technologies to reduce the noise load from the operation of aircraft, such as the introduction of noise-protective coverings of runways, new materials for the production of aircraft engines, as well as changing the design of engines and the use of double-circuit scheme.

The work assessed the impact of aircraft on the environment and the effectiveness of environmental protection measures using the example of the operation of Boeing 747 and Boeing 757 aircraft, and developed proposals for the implementation of environmental protection and technical measures to reduce this impact.

Author Biographies

Dmytro Makarenko, National Aerospace University «Kharkiv Aviation Institute»

Senior Lecturer

Department of Ecology and Technogenic Safety

Pavlo Penziev, National Technical University «Kharkiv Polytechnic Institute»

Assistant

Department of Foundry

Artem Oskorbin, National Aerospace University «Kharkiv Aviation Institute»

Postgraduate Student

Department of Information Technologies and Design

References

  1. Statystychni dani v haluzi aviatransportu. Available at: https://mtu.gov.ua/content/statistichni-dani-v-galuzi-aviatransportu.html
  2. Konventsiia pro mizhnarodnu tsyvilnu aviatsiiu 1944 (1994). Konventsiia No. 995_038. 07.12.1944. Available at: https://zakon.rada.gov.ua/laws/show/995_038#Text
  3. Strategic Objectives. Available at: https://www.icao.int/about-icao/Council/Pages/Strategic-Objectives.aspx
  4. Committee on Aviation Environmental Protection Report (Doc 10176) (2022). Available at: https://store.icao.int/en/committee-on-aviation-environmental-protection-report-doc-10176?_gl=1*5h8hyd*_ga*MTM4MTE4NTgxNy4xNzE3NzYzOTA1*_ga_992N3YDLBQ*MTcxNzc2MzkwNC4xLjEuMTcxNzc2NDMxNy4wLjAuMA
  5. ICAO Engine Exhaust Emissions DataBank (1995). ICAO. Doc 9646- AN/943.
  6. Duan, Z., Zhang, L., Wen, L., Guo, C., Bai, Z., Ou, Z., Huang, F. (2018). Experimental research on impact loading characteristics by full-scale airplane impacting on concrete target. Nuclear Engineering and Design, 328, 292–300. doi: https://doi.org/10.1016/j.nucengdes.2018.01.021
  7. Lugten, M., Wuite, G., Peng, Z., Tenpierik, M. (2024). Assessing the influence of street canyon shape on aircraft noise: Results from measurements in courtyards near Amsterdam Schiphol Airport. Building and Environment, 255, 111400. doi: https://doi.org/10.1016/j.buildenv.2024.111400
  8. Wu, C., Redonnet, S. (2023). Aircraft noise impact prediction with incorporation of meteorological effects. Transportation Research Part D: Transport and Environment, 125, 103945. doi: https://doi.org/10.1016/j.trd.2023.103945
  9. Jackisch, J., Sethi, D., Mitis, F., Szymanski, T., Arra, I. (‎2015)‎. European facts and the Global status report on road safety 2015. World Health Organization. Regional Office for Europe. Available at: https://iris.who.int/handle/10665/326340
  10. Boeing: 747 Design Highlights. Available at: https://www.boeing.com/commercial/747-8/design-highlights
  11. Strahan, D. (2008). Green fuel for the airline industry. New Scientist, 199 (2669), 34–37. doi: https://doi.org/10.1016/s0262-4079(08)62067-9
  12. Wylie, E., Panesar, A., Morgan, R. (2024). Feasibility of hydrogen fuelled split cycle engine using multizone modelling. International Journal of Hydrogen Energy, 60, 917–926. doi: https://doi.org/10.1016/j.ijhydene.2024.02.112
  13. Agyekum, E. B., Odoi-Yorke, F., Abbey, A. A., Ayetor, G. K. (2024). A review of the trends, evolution, and future research prospects of hydrogen fuel cells – A focus on vehicles. International Journal of Hydrogen Energy, 72, 918–939. doi: https://doi.org/10.1016/j.ijhydene.2024.05.480
  14. Bin, S., Chen, Z., Zhu, Y., Zhang, Y., Xia, Y., Gong, S. et al. (2024). High-pressure proton exchange membrane water electrolysis: Current status and challenges in hydrogen production. International Journal of Hydrogen Energy, 67, 390–405. doi: https://doi.org/10.1016/j.ijhydene.2024.04.188
  15. Ham, K., Bae, S., Lee, J. (2024). Classification and technical target of water electrolysis for hydrogen production. Journal of Energy Chemistry, 95, 554–576. doi: https://doi.org/10.1016/j.jechem.2024.04.003
  16. Arsad, S. R., Arsad, A. Z., Ker, P. J., Hannan, M. A., Tang, S. G. H., Goh, S. M., Mahlia, T. M. I. (2024). Recent advancement in water electrolysis for hydrogen production: A comprehensive bibliometric analysis and technology updates. International Journal of Hydrogen Energy, 60, 780–801. doi: https://doi.org/10.1016/j.ijhydene.2024.02.184
  17. Homola, D., Boril, J., Smrz, V., Leuchter, J., Blasch, E. (2019). Aviation Noise-Pollution Mitigation Through Redesign of Aircraft Departures. Journal of Aircraft, 56 (5), 1907–1919. doi: https://doi.org/10.2514/1.c035001
  18. ICAO Safety Management Systems (SMS) Course Handout N° 3 – International airport construction work (2008). International Civil Aviation Organization. Available at: https://www.icao.int/safety/afiplan/Documents/Safety%20Management/2008/SMS%20Workshop/Handouts/ICAO%20SMS%20Handout%2003%20-%202008-11%20_E_.pdf
  19. Isaienko, V. M., Boichenko, S. V., Babikova, K. O., Vovk, O. O. (2020). Zakhyst navkolyshnoho seredovyshcha v aviatransportnykh protsesakh. Kyiv: NAU, 320.
  20. Market – based measures report from WG5 to the fifth meeting of the Committee on Aviation Environmental Protection (2001). Paper CAEP/5-IP/22, 109.
Evaluation of the effect of airplanes on the environment on the example of Boeing 747 and Boeing 757

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Published

2024-06-21

How to Cite

Makarenko, D., Penziev, P., & Oskorbin, A. (2024). Evaluation of the effect of airplanes on the environment on the example of Boeing 747 and Boeing 757. Technology Audit and Production Reserves, 3(3(77), 18–24. https://doi.org/10.15587/2706-5448.2024.306220

Issue

Vol. 3 No. 3(77) (2024): Chemical engineering

Section

Ecology and Environmental Technology

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Copyright (c) 2024 Dmytro Makarenko, Pavlo Penziev

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