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Estimation of evacuation time of passengers in aircraft accidents with fire in airfield areas

    Arthur Suharev   Affiliation
    ; Vladimir Shestakov   Affiliation
    ; Leonid Vinogradov   Affiliation

Abstract

Statistics show that the majority of aircraft accidents occurs in the vicinity of airfield areas. Yet the main factors leading to fatalities in these accidents are the forces encountered by human occupants in collision with obstacles and the presence of fire. It is possible to single out a group of “technically survivable” accidents from the total number of accidents, in which a crew member or passengers could have survived, if the evacuation took place in a timely manner. The share of such accidents is about 85–90%. However, up to 40% of passengers die in technically survivable accidents. Applicable protection systems are only adequate, if the passengers manage to exit the airplane and get to a safe distance within a limited timeframe. Although these systems have been sufficiently developed; this is one of the most significant problems in modern aviation. This means, that the study of possibilities and the development of the methods and means of passenger evacuation in aircraft accidents, specifically in and around airport areas, are relevant to be addressed.

Keyword : aviation safety, aviation structures, aircraft layout, aircraft modeling, civil aviation, investigations

How to Cite
Suharev, A., Shestakov, V., & Vinogradov, L. (2020). Estimation of evacuation time of passengers in aircraft accidents with fire in airfield areas. Aviation, 24(2), 72-79. https://doi.org/10.3846/aviation.2020.12653
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Jul 8, 2020
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References

Abashkin, A. (2014). Posobie po primeneniju metodiki rascheta pozarnogo riska. http://legalacts.ru/doc/posobie-po-primeneniiu-metodiki-opredelenija-raschetnykh-velichin/

Avia.pro. (2016, January 01). Evakuacija pasazhirov iz samoleta. http://avia.pro/blog/evakuaciya-passazhirov-iz-samoleta

Bestreferat. (2009, July 21). Accidents and evacuation of passengers from an aircraft. https://www.bestreferat.ru/referat-102777.html

Fireexpo. (2017, December 11). Metodika opredelenija velichini pozarnogo riska v objektah razlichnih klassov pozarnoj opasnosti. http://fireexpo.ru/obespechenie-pozharnoj-bezopasnosti-o/ob-utverzhdenii-metodiki-opredelenija-4.html

Goljashkin, V., & Baranov, S. (1990, December 11). Rekomendaciji po tusheniju pozharov na vozdushnih sudah na aerodromach grazdanskoj aviaciji. http://pozhproekt.ru/nsis/Rd/Rekom/rek-tushenie-aerodrom.htm

Holshevnikov, V., Samoshin, A., Istratov, N., & Sharanova, M. (2019). Testovie zadachi dlja proverki tochnosti modelirovanija vremeni evakuaciji ljudej v sluchae pozhara. Akademija GPS MCS Rossii.

ICAO-Montreal, Quebec. (2011). A coordinated, risk-based approach to improving global aviation safety/2011 state of global aviation safety. Canada.

ICAO Doc.9877. (1984). Airport Services Manual.

ICAO Doc.9137– AN/898 Part 1. (2014). Aiport Services Manual Part 1 Rescue and Fire Fighting Fourth Edition.

Mark, A., & Glen, M. (1995). National Aeronautics and Space Administration of the USA, National Plan for Civil Aviation Human Factors. https://ntrl.ntis.gov/NTRL/dashboard/searchResults/titleDetail/PB95185518.xhtml

Nisula, J. (2009, June 09). Operational risk assessment. Next generation methodology. https://skybrary.aero/bookshelf/books/694.pdf

Ria. (2017, January 16). Krupnie aviakatastrofi v mire v 2015–2017 godah. https://ria.ru/spravka/20170116/1485749330.html

Rogachev, A., & Veselago. V. (1981). Obespechenie bezopasnosti passazirov pri aviacionnih proisshestvijah s pozarami. Problemi bezopasnosti poletov (pp. 74–81). Moscow.

Rogachev, A. (1987). Efektivnostj tushenija pozarov vozdushnih sudov pri aviacionnih proisshestvijah. Problemi bezopasnosti poletov (pp. 78–88). Moscow.

Shestakov, V., Lazareva, I. (2016). Guidelines on evaluating passenger evacuation possibilities in aviation incidents involving fires. Aviation, 20. https://doi.org/10.3846/16487788.2016.1195063

Trudohrana. (2020, February 28). Raschet pozarnogo riska. https://doi.org/10.3846/16487788.2016.1195063https://www.trudohrana.ru/article/100001-qqq-17-m9-raschet-pojarnogo-riska

Vinogradov, L., Lazareva, I., & Sestakovs, V. (2011). Fuselage cladding fire resistance assessment of aviation accidents with (pp. 320–325). RTU Izdevnieciba.

Vuzlit. (2019, December 18). Evakuacija passazhirov iz samoleta na sushe v uslovijah pozhara. https://vuzlit.ru/1017707/evakuatsiya_passazhirov_samoleta_sushe_usloviyah_pozhara

Wikidot. (2013 March 04). Ispitanija i sertifikacija superjet. http://superjet.wikidot.com/test