Affiliation:
1. All-Russian Scientific Research Institute for Civil Defence and Emergencies of the EMERCOM of Russia (Federal Science and High Technology Center)
2. Yaroslavl State Technical University
3. Tver State Technical University
4. Russian University of Transport
Abstract
The relevance of the study consists in the problem of incompletely regulated legal relations in the field of emergency forecasting. This problem represents an important factor and condition for the unpredictable and uncontrolled generation and development of environmental hazards, threats and risks, as well as contributes to the preconditions for the occurrence of natural and technogenic emergencies. The study aims to systematically assess and develop ways to solve the problems of preventing unfavorable technospheric situations in municipal territories in the context of an ever-increasing technogenic impact of production and consumption wastes. The study emphasises the search for methods, organisational-technical measures and best available technologies for preventing natural and technogenic emergencies, as well as their socio-economic, natural-resource, environmental and other adverse consequences. A system analysis of quantitative and qualitative indicators, parameters, factors and conditions, affecting events and formation processes of environmental hazard sources, represented by end-of-life, spent, utilised construction and other products, formed in the process of human activity and life support of settlements, is carried out. Based on the results of a joint research, the authors made an attempt to form an idealised conceptual model of a resource-saving system for an environmentally safe management of life support production and consumption wastes in technospheric territories.
Publisher
Irkutsk National Research Technical University
Reference29 articles.
1. Oltyan I.Y., Arefyeva E.V., Kotosonov A.S. Remote assessment of an integrated emergency risk index. International Conference on Construction, Architecture and Technosphere Safety (ICCATS 2020). IOP Con-ference Series: Materials Science and Engineering. 06–12 September 2020, Sochi. IOP Publishing Ltd; 2020. Vol. 962 (4). р. 042053. https://doi.org/10.1088/1757-899X/962/4/042053. EDN: XJGGYQ.
2. Aref'eva E.V., Oltyan I.Yu. The role of international cooperation for better disaster risk forecast in the context of ongoing climate change. Nauchnye i obrazovatel'nye problemy grazhdanskoi zashchity. 2017;2:7-9. (In Russ). EDN: ZBGXSB.
3. Lapidus A.A., Makarov A.N. Application of a risk-based approach when performing the functions of construction control of a technical customer. Vestnik MGSU = Bulletin of MGSU. 2022;17(2):232-241. (In Russ.). https://doi.org/10.22227/1997-0935.2022.2.232-241. EDN: ARPPKP.
4. Faleev M.I., Oltyan I.Yu., Arefyeva E.V., Bolgov M.V. Methodology and technology of remote risk assess- ment. Problemy analiza riska = Issues of risk analysis. 2018;15(4):6-19. (In Russ.). EDN: YCNCAP.
5. Akimov V.A., Oltyan I.Yu., Ivanova E.O. Natural, anthropogenic and biological and social emergency situations ranking technique by catastrophic degree. Tehnologii grazhdanskoi bezopasnosti = Civil security technology. 2021;18(1):4-7. (In Russ.). https://doi.org/10.54234/CST.19968493.2021.18.1.67.1.4 EDN: IOGGXC.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献