Damage assessment at depressurization of oil tank and spill oil product into water

A significant part of hydrocarbons is transported by rail. At the same time, oil products are considered dangerous goods, accidents during transportation of which can lead to emergency situations. The emergency situation caused by the depressurization of the tank car with gasoline was considered, as a result of which gasoline got into the river Volkhov (Kirishi, Leningrad Region). Presents the calculation of damage from emergency situations when transporting gasoline in a tank car. Defined the economic losses, as well as damage to the environment: atmospheric air, water and land resources. The total environmental damage is calculated. When the damage assessment analysis of the relationship between damage caused to the environment from the time elapsed from the moment of an emergency, prior to commencement of works on localization and liquidation of emergency transport. It was revealed that the least environmental damage would be if proceed to emergency response within the first hour. In the second hour, environmental damage increases by 68 %, and in the third hour it increases by another 23 %.

The conclusion is made about the effectiveness of rapid response and work on localization of an emergency situation related to the spill of petroleum products into a water body. 

1. Akhtyamov R.G., Elizarev A.N., Nasyrova E.S. Creation of temporary accommodation of the population. Saarbrucken, 2012; 97. (In Russian).

2. Ahtyamov R.G., Senyushkin N.S., Suhanov A.V. Elaboration of potentially dangerous objects recognition principles. Bulletin of Voronezh State Technical University. 2011; 7(5):192197. (In Russian).

3. Elizariev A.N., Gabdulkhakov R.R., Ahtyamov R.G. The methodology of operational risk assessment emergency situations at the objects of petrol maintenance in the area of karstic processes. Oil and Gas Business. 2012; 10(1):124-131. (In Russian).

4. Akhtyamov R.G. Assessment and ways to reduce the environmental hazard of motor transport infrastructure of an urbanized area. Kazan, 2009; 19. (In Russian).

5. Akhtyamov R., Elizaryev A., Vdovina I., Planida Yu., Hayertdinova E. Using network models planning rescue and other urgent operations. Scientific and Educational Problems of Civil Protection. 2012; 2:29-34. (In Russian).

6. Russian Economy: Past, Present, Future: collective monograph / ed. by N.A. Adamova. Moscow, Institute for the Study of Product Distribution and Wholesale Market Studies, 2014; 248. (In Russian).

7. Pokrovskaya O.D. The evolutionary-functional approach to the development of transport nodes. Political transport systems: materials of the IX International scientific and technical conference. 2017; 233-238. (In Russian).

8. Pokrovskaya O.D. Organization of the work of the warehouse distribution system. Novosibirsk, CRNS, 2015; 66. (In Russian).

9. Pokrovskaya O.D., Malikov O.B. Concerning the logistics hierarchy of railway facilities. Proceedings of Petersburg Transport University. 2016; 13(4):(49):521-531. (In Russian).

10. Pokrovskaya O.D. Research vocabulary of terminalists. Bulletin of Scientific Research Result. 2018; 2:29-43. (In Russian).

11. Pokrovskaya O.D., Malykov O.B. Evolutionary functional approach to transport nodes classification. Proceedings of Petersburg Transport University. 2017; 14(3):406-419. (In Russian).

12. Samyilov V.M., Pokrovskaya O.D., Qiao Cong. Concept «New silk road» (China, Russia, Germany). Innotrans. 2017; 4(26):26-28. (In Russian).

13. Malykov O.B., Pokrovskaya O.D. Rate-setting system analysis of railroad transport from a position of logistics and customer-oriented approach. Proceedings of Petersburg Transport University. 2017; 14(2):187-199. (In Russian).

14. Pokrovskaya O.D. Comprehensive assessment of transport and storage systems of railway transport. St. Petersburg, 2018; 32. (In Russian).

15. Titova T.S., Longobardi A., Akhtyamov R.G., Nasyrova E.S. Lifetime of earth dams. Magazine of Civil Engineering. 2017; 1(69):34-43. DOI: 10.18720/MCE.69.3