Russian Federation
Based on the analysis of the growth of ammonia production and its delivery to terminals by road in Russia, the problems of ensuring the safety of the population in case of accidents of vehicles with ammonia on the routes of its movement in settlements and the specifics of the organization of liquidation of the consequences of accidents with depressurization of reservoirs are considered. Calculated data on the depth of contaminated cloud spreading and height of its rise are given. Methods of localization of the primary cloud of ammonia contamination on the basis of operative use of heat guns and small-sized jet engines by the personnel of the brigades accompanying the dangerous cargo, as well as inclusion in the escort of the convoy of the calculation of State fire service of EMERCOM of Russia with an emergency rescue container for liquidation of the consequences of road traffic accidents associated with ASK-AHOV.
emergency chemical hazardous substance, accident localization, water cut-off curtain, thermal curtain, unmanned aerial vehicle
1. Razrabotka predlozhenij tekhnicheskogo i organizacionnogo haraktera dlya obespecheniya bezopasnosti perevozki AHOV avtomobil'nym transportom. URL: megalektsii.ru>s40536t3.html (data obrashcheniya: 19.02.2024).
2. Atlas prirodnyh i tekhnogennyh opasnostej v Rossijskoj Federacii. M.: IP «Dizajn. Informaciya. Kartografiya», 2005. 269 s.
3. Popova G.I., Steshin Yu.N. O transportnoj bezopasnosti v Rossijskoj Federacii // Al'ternativnye istochniki energii v transportno-tekhnologicheskom komplekse: problem i perspektivy racional'nogo ispol'zovaniya. 2015. T. 2. Vyp. 1 (2).
4. Savchuk O.N. Prognozirovanie i likvidaciya posledstvij pri avariyah (razrusheniyah) podvizhnyh himicheski opasnyh ob"ektov: monografiya. SPb.: S.-Peterb. un-t GPS MCHS Rossii, 2014.
5. Prognoz ingalyacionnogo porazheniya cheloveka pri avarijnom vybrose ammiaka i hlora metodom dinamicheskih koncentracij / N.N. Litvinov [i dr.]. M.: Medicina truda i promyshlennaya ekologiya. 2000. № 8. S. 10–16.
6. Habibulin I.I. Opredelenie riska toksicheskogo porazheniya pri avariyah na himicheski opasnyh ob"ektah: dis. … kand. tekhn. nauk. Kazan': Gos. tekhnol. un-t, 2011. S. 30.
7. Chernyavskij S.A. Eksperimental'nye metody rascheta koefficienta turbulentnoj diffuzii dlya analiza rasseivaniya himicheskih zagryaznitelej v atmosferu. M.: Ekologiya urbanizirovannyh territorij. 2020. № 1. S. 22–26.
8. Osobennosti ocenki posledstvij avarij, svyazannyh s vybrosom opasnyh veshchestv /A.V. Pchel'nikov [i dr.] // Aktual'nye problemy regulirovaniya prirodnoj i tekhnogennoj bezopasnosti v XXI v.: materialy II Mezhdunar. nauch.-prakt. konf. po problemam zashchity naseleniya i territorij ot CHS. M.: MCHS Rossii, 2005. S. 310–314.
9. Dorfman N.N., Peregudov A.N., Bokadarov S.A. Razrabotka meropriyatij po likvidacii vozmozhnyh himicheskih avarij na pererabatyvayushchem predpriyatii // Vestnik Voronezhskogo instituta GPS MCHS Rossii. 2017. № 1 (22). S. 7–14.
10. Savchuk O.N. Puti resheniya problemy obespecheniya bezopasnosti pri transportirovke ammiaka avtomobil'nym transportom // Problemy upravleniya riskami v tekhnosfere. 2013. № 1 (25). S. 42–52.
11. Lomazov V., Kostyuchenkov A. Dvigatel', kotoryj zhdali. Miniatyurnyj GTD dlya maloj aviacii // Bespilotnaya aviaciya – 2015: materialy II Mezhdunar. konf. M.: FGUP «Central'nyj institut aviacionnogo motorostroeniya im. P.I. Baranova», 2015