The History of the Development and Application of Robotics in the Elimination of Consequences at Radiation-Hazardous Facilities
https://doi.org/10.35825/2587-5728-2021-5-2-149-164
EDN: rsdkqp
Abstract
The lecture is intended for training specialists in higher educational establishments according to the Federal state standard «Robotics for military and special purposes» and also for training operators of robotic complexes (facilities) for military purposes in training centers and military units. The lecture addresses two study questions: 1) Retrospective analysis of radiation accidents and their consequences. 2) Analysis of the use of robotic technology and robotics systems for elimination the consequences of radiation accidents. Conclusion: The material presented in the lecture is aimed at expanding the knowledge of those who are trained in the history of radiation accidents (disasters), as well as in the use of robotic technology and robotic systems for eliminating the consequences of such accidents. The analysis of the use of robotics in conditions of an increased radiation background, given in the lecture, will make it possible to form the necessary competencies of specialists of the NBC protection troops in order to effectively perform their tasks as intended.
About the Authors
K. N. AkkuzinRussian Federation
Konstantin Nikolayevich Akkuzin. Chef of Department of Scientific Work Organization and Scientific-Pedagogical Personnel of Military Academy of NBC Defense, PhD of Military Studies
Gorky Street 16, Kostroma 156013
E. S. Makeev
Russian Federation
Makeev Evgeny Sergeevich. Chief of the research laboratory (on the substantiation of the initial data for planning the development of the weapons system and means of NBC protection) of Military Academy of NBC Defense
References
1. МЧС: URL: https://19.mchs.gov.ru/deyatelnost/poleznaya-informaciya/rekomendacii-naseleniyu/chstehnogennogo-haraktera (дата обращения: 08.04.2021).
2. CYBERLESSON.RU: https://cyberlesson.ru/klassifikacija-radiacionnyh-avarij/#klassifikaciaradiacionnyh-avarij (дата обращения: 08.04.2021).
3. РИА Новости: https://ria.ru/20110312/347505544.html (дата обращения: 14.04.2021). – Текст : электронный.
4. Сибирский региональный Союз «Чернобыль: http://souzchernobylnsk.ru/articles/hronologiyaradiacionnyhavarij#:~:text=22%20февраля%201977%20года%20авария,на%20уране%2C%20добываемом%20в%20Чехословакии (дата обращения: 14.04.2021).
5. Научная Россия. https://scientificrussia.ru/articles/march1-castle-bravo (дата обращения: 28.04.2021).
6. Владыка. Безопасность и чрезвычайные ситуации: https://vladyka23.ru/entsiklopediya/spisok-radiacionnyh-avariy.html (дата обращения: 14.04.2021).
7. Инфоцентр AfterShock. Каким будет завтра?: https://aftershock.news/?q=node/364805&full (дата обращения: 14.04.2021)
8. ФГБУ ВНИИПО МЧС России: http://www.vniipo.ru/departments/nicntr.html (дата обращения: 15.04.2021).
9. Мур Т. Роботы для атомных электростанций. Бюллетень МАГАТЭ. 1985. С. 35-44.
10. ATOMICEXPERT.COM: https://atomicexpert.com/robots_in_nuclear (дата обращения: 15.04.2021).
11. Чернобыльская катастрофа (1986 г.): Катастрофы конца XX века. М.: 1998. 400 с.
12. Специальная техника: технология применения управляемых мобильных комплексов / А.Ф. Батанов, С.Н. Грицынин, С.В. Муркин. М., 1998–2016.
13. Аккузин К.Н. Робототехнические комплексы (средства) войск радиационной, химической и биологической защиты Вооруженных Сил Российской Федерации (лекция) // Вестник войск РХБ защиты. 2021. Т. 5. № 1. С. 71–82.
Review
For citations:
Akkuzin K.N., Makeev E.S. The History of the Development and Application of Robotics in the Elimination of Consequences at Radiation-Hazardous Facilities. Journal of NBC Protection Corps. 2021;5(2):149-164. https://doi.org/10.35825/2587-5728-2021-5-2-149-164. EDN: rsdkqp
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