SCIENTIFIC AND PRACTICAL ASPECTS OF SECURITY FLIGHT SAFETY

Authors

DOI:

https://doi.org/10.30890/2709-2313.2024-26-00-026

Keywords:

Авіаційно-транспортна система, ділянка польоту, екіпаж, технічний чинник, людський чинник, надійність системи, модель, параметрична відмова, визначальний параметр, зношування

Abstract

The use of modern aerospace objects requires taking into account the experience of ensuring the reliability and safety of flights. The main aspects of the successful functioning of the aviation and transport system have been studied. The main criteria and

Metrics

Metrics Loading ...

References

Flight Safety Management Manual (2018). ICAO. 218 p.

NASA Risk Management Handbook (2011) NASA/SP-2011-3422. Washington, D.C. 20546. http://ntrs.nasa.gov/

Convention on International Civil Aviation (1944). URL: http://zakon5.rada.gov.ua/laws/ show/995_038

O. M. Reva, S. P. Borsuk, V. V. Kamyshyn, V. A. Shulgin, V. D. Parkhomenko, V. O. Lypchanskyi (2019) System-informational methodology of proactive qualitative measurement of the influence of the human factor on decision-making in aeronautical systems. K: UkrINTEI. 166 p.

Methodical recommendations of the state aviation regarding the collection, analysis and presentation of information on malfunctions of aviation equipment (MRDA-02/16). Kyiv (2016). 104 p.

Aleksandrs Bitinš, Juris Maklakovs, Ruta Bogdane, Rafał chatys, Vladimir Shestakov (2021) Using adverse event pyramidsto assess probabilities in airline safety management. Transactions on aerospace research 2(263), pp.71-83 DOI: 10.2478/tar-2021-0012.

Iskra, O., Lobunko, D., & Lobunko, O. (2023). Research of mechanisms of destruction and protection of complex thermodynamic systems. European Science, 1(sge23-01), 60–77. https://doi.org/10.30890/2709-2313.2023-23-01-015.

Lobunko O.P., Iskra O.O. Substantiation of the protection system's configuration for the reusable spacecraft. III International Scientific and Practical Conference science in the environment of rapid changes: materials of the International Scientific and Practical Conference, Belgium, 2023. P. 189-194. URL: https://archive.interconf.center/index.php/conference-proceeding/article/view/4218

Nabokina T.P., Kondratiev A.V., Parasyuk V.I. (2021) Basics of reliability of aircraft structures. H.: Nat. aerospace University named after M.E. Zhukovsky "KHAI". 112 p.

Nechiporenko O.M. (2010) Fundamentals of Aircraft Reliability. K.: NTUU "KPI". 240 p.

Lobunko O., Iskra O. (2023) Mathematical Modeling of the Thermal Conditions of Aerospace Products Protection Systems. International Scientific and Technical Conference, Ukraine, Cherkasy. Р. 8-10. URL:

https://er.chdtu.edu.ua/bitstream/ChSTU/4561/1/%D0%97%D0%B1%D1%96%D1%80%D0%BD%D0%B8%D0%BA%20%D0%BC%D0%B0%D1%82%D0%B5%D1%80%D1%96%D0%B0%D0%BB%D1%96%D0%B2%20%D0%9C%D0%9D%D0%A2%D0%9A%20%D0%94%D0%9F%D0%A1-2023.pdf#page=8

Lobunko O.P. (2023) Simulation of degradation of individual characteristics of gas turbine engine components. XXXI International scientific and practical conference "Science, worldview and modern youth": materials of the International Scientific and Practical Conference, USA, San Francisco. P. 118-123. ISBN 979-8-89074-562-0, doi - 10.46299/ISG.2023.1.31.

Kharchenko V.P., Alekseev O.M. (2018) Aviation risk management system. K.: NAU. - 312 p.

Karpinos B.S., Korovin A.V., Lobunko O.P., Vedishcheva M.Y. (2014) Operational damage of aircraft turbojet twin-circuit engines with afterburners. Journal Vesnik dyvtomobilnosti. Zaporizhzhya. Р. 18-24. URL:

http://journal.zntu.edu.ua/vd/files/VD12014/VD(1)_2014.pdf

Karpinos B.S., Lobunko O.P., Grenj V.M., Korovin O.V. (2013) Computer modeling of operational states of the fuel manifold of an aircraft engine. Collection of scientific papers of the SRIA. Kyiv, issue 9(16), Р. 174 179.

Karpinos B.S., Lobunko O.P., Kuzmin S.M., Gren V.M. (2014) Methods for predicting the durability of structural elements of aircraft power plants based on modeling the stress state and the influence of operational factors. Collection of scientific works of the SRIA. Kyiv, issue 10(17). P. 183-187.

Lobunko O.P., Yarovitsyn O.V. (2019) Modern scientific and technological aspects of repair of aircraft engine parts. Collection of scientific papers of the SRIA. Kyiv, issue №15 (22). Р.153-160.

Melnyk O.M., Ocheretna V.V., Shakhov V.I. Intellectual capital is the foundation of innovative development: Conceptual principles of ensuring organizational and technological aspects of ship safety. Monographic series «European Science». Book 18. Part 1. 2023. ISBN 978-3-949059-79-7 DOI: 10.30890/2709-2313.2023-18-01.

European Plan for Aviation Safety (EPAS) 2020–2024.

Oleg Parashchak (2023). Statistics of the biggest plane crashes in the world 1974-2023. https://forinsurer.com/public/17/01/10/3824

EASA Consolidated Annual Activity Report (2021).

Lobunko O., Iskra O. (2023). Substantiation of the protection system’s technical outline for the aerospace objects. Scientific Journal of TNTU (Tern.), vol 112, no 4, pp. 102–114. URL: https://visnyk.tntu.edu.ua/?art=758

Iskra O., Lobunko O. (2023) Calculation of the passive thermal protection systems elements for the reusable spacecraft. XV Міжнародна студентська конференція «Intelligence. Integration. Reliability». Kyiv. URL:

https://iat.kpi.ua/wp-content/uploads/2023/12/IRR-2023.pdf

AVIATION RISK FACTORS (2007). Secretariat of the World Meteorological Organization Geneva, Switzerland. 53 р.

Nagorny A.F. (2007) Flight - technical characteristics of aircraft: educational manual. Kirovohrad, 122 p.

Aviation investigation manual incidents and incidents (2013). National Bureau of Ukraine for Investigation of Aviation Accidents and Incidents. Kyiv, 356 р.

EUROPEAN PLAN FOR AVIATION SAFETY (EPAS) 2023-2025. 89 р.

Published

2024-01-30

How to Cite

Lobunko, O. (2024). SCIENTIFIC AND PRACTICAL ASPECTS OF SECURITY FLIGHT SAFETY. European Science, 1(sge26-01), 104–139. https://doi.org/10.30890/2709-2313.2024-26-00-026