E.E. Fomina, Cand. Sci. (Eng.), Assoc. Prof., ka72@bk.ru M.A. Guskov, Cand. Sci. (Eng.), Assoc. Prof. Gubkin Russian State University of Oil and Gas, Moscow, Russia
The concept of the integrated safety and security of objects for fuel and energy complex is defined, its components are listed. Industrial safety and environmental safety are specified as one of the priority fields for the development of the Russian State University of Oil and Gas named after I.M. Gubkin. Among the priority tasks within the frame of implementation of the strategic goal of the state policy in the field of education, ensuring of the competent approach is specified concerning the interrelationship of academic knowledge and practical skills. The students of the university receive the entire set of the required competencies in accordance with the requirements of the federal state educational standards and professional standards. One of such competences is «Risk Assessment and Analysis». Within its framework, the students identify hazardous zones and the areas of acceptable risk, predict the emergence of increased technogenic risk and elevated pollution, apply the methods of analysis and reliability assessment and technogenic risk, collect data for rendering methodological assistance to structural subdivisions in identifying hazards, etc.
Qualitative formation of the above skills in the field of risk assessment depends on the use of the up-to-date software products in the educational process. One of the main software packages widely used by the specialists in the fields of industrial and fire safety for risk assessment of accidents at hazardous production facilities is TOXI+Risk developed by STC «Industrial Safety» CJSC. The need for its application at formation of competencies in the process of training of bachelors and masters in the field of education «Technosphere safety» is noted in the article.
1. Itogi raboty TEK Rossii v 2016 godu. Zadachi na srednesrochnuyu perspektivu: doklad ministra energetiki Rossiyskoy Federatsii A.V. Novaka (The Results of the Work of the Fuel and Energy Complex of Russia in 2016. The Tasks for the Mid-term Perspective: the Report of the Minister of Energy of the Russian Federation of A.V. Novak). Available at: https://minenergo.gov.ru/node/7687 (accessed: December 25, 2017).
2. Kafedra promyshlennoy bezopasnosti i okhrany okruzhayushchey sredy (Department of Industrial Safety and Environmental Protection). Available at: https://www.gubkin.ru/faculty/mechanical_engineering/chairs_and_departments/industrial_safety_and_environmental_conservation/ (accessed: October 23, 2017).
3. Ob utverzhdenii federalnogo gosudarstvennogo obrazovatelnogo standarta vysshego obrazovaniya po napravleniyu podgotovki 20.03.01 Tekhnosfernaya bezopasnost (uroven bakalavriata): prikaz Ministerstva obrazovaniya i nauki Rossiyskoy Federatsii ot 21 marta 2016 g. № 246 (On Approval of the Federal State Educational Standard of Higher Education in the Field of Training 20.03.01 Technosphere Safety (Bachelor Degree Level): Order of the Ministry of Education and Science of the Russian Federation of March 21, 2016 № 246). Available at: http://docs.cntd.ru/document/420347174 (accessed: October 23, 2017).
4. Ob utverzhdenii federalnogo gosudarstvennogo obrazovatelnogo standarta vysshego obrazovaniya po napravleniyu podgotovki 20.04.01 Tekhnosfernaya bezopasnost (uroven magistratury): prikaz Ministerstva obrazovaniya i nauki Rossiyskoy Federatsii ot 06 marta 2015 g. № 172 (On the Approval of the Federal State Educational Standard of Higher Education in the Field of Training 20.04.01 Technosphere Safety (Master Degree Level): Order of the Ministry of Education and Science of the Russian Federation of March 6, 2015, № 172). Available at: http://docs.cntd.ru/document/420261122 (accessed: October 23, 2017).
5. Proekt federalnogo gosudarstvennogo obrazovatelnogo standarta vysshego obrazovaniya po napravleniyu podgotovki 20.03.01 Tekhnosfernaya bezopasnost (uroven bakalavriata) (Draft of the Federal State Educational Standard of Higher Education in the Field of Education 20.03.01 Technosphere Safety (Bachelor Degree Level). Available at: http://fgosvo.ru/fgosvo/142/141/16/20 (accessed: October 23, 2017).
6. Ob utverzhdenii professionalnogo standarta «Spetsialist v oblasti okhrany truda»: prikaz Ministerstva truda i sotsialnoy zashchity Rossiyskoy Federatsii ot 04 avgusta 2014 g. № 524n (On the approval of professional standard «Specialist in the field of labor protection»: order of the Ministry of Labor and Social Protection of the Russian Federation of August 4, 2014 № 524n). Available at: http://base.garant.ru/70731928/ (accessed: October 23, 2017).
7. Ob utverzhdenii professionalnogo standarta «Spetsialist po obespecheniyu promyshlennoy bezopasnosti pri ekspluatatsii oborudovaniya, rabotayushchego pod izbytochnym davleniem, i/ili podemnykh sooruzheniy»: prikaz Ministerstva truda i sotsialnoy zashchity Rossiyskoy Federatsii ot 24 dekabrya 2015 g. № 1142n (On Approval of Professional Standard «Specialist on Ensuring Industrial Safety at Operation of the Pressurized Equipment, and/or Lifting Devices»: Order of the Ministry of Labor and Social Protection of the Russian Federation of December 24, 2015 № 1142n). Available at: http://base.garant.ru/71317262/ (accessed: December 09, 2017).
8. O kontseptsii dolgosrochnogo sotsialno-ekonomicheskogo razvitiya Rossiyskoy Federatsii do 2020 goda: rasporyazhenie Pravitelstva Rossiyskoy Federatsii ot 17 noyabrya 2008 g. № 1662-r (On the Concept of Long Term Social and Economic Development of the Russian Federation up to 2020: Decree of the Government of the Russian Federation of November 17, 2008 № 1662-r). Available at: http://base.garant.ru/194365/ (accessed: December 09, 2017).
9. Programmnyy kompleks TOXI+Risk 5 (Software Package TOXI+Risk 5). Available at: https://toxi.ru/produkty/programmnyi-kompleks-toxirisk-5 (accessed: October 23, 2017).
10. Agapov A.A., Lazukina I.O., Marukhlenko A.L., Marukhlenko S.L., Sofin A.S. Use of TOXI+Risk software package for fire risk assessment. Bezopasnost truda v promyshlennosti = Occupational Safety in Industry. 2010. № 1. pp. 46–52.
11. Agapova E.A., Degtyarev D.V., Lisanov M.V., Kryukov A.S., Kulberg S.B., Sumskoy S.I. Comparative analysis of Russian and foreign methods and computer programs on modeling of emergency emissions and risk assessment. Bezopasnost truda v promyshlennosti = Occupational Safety in Industry. 2015. № 9. pp. 71–78.
12. STO Gazprom 2-2.3-351—2009. Metodicheskie ukazaniya po provedeniyu analiza riska dlya opasnykh proizvodstvennykh obektov gazotransportnykh predpriyatiy OAO «Gazprom» (STO Gazprom 2-2.3-351—2009. Methodological Instructions to Conducting Risk Analysis for Hazardous Production Facilities of OAO Gazprom Gas Transportation Enterprises). Moscow: OOO «Gazprom ekspo», 2009. 378 p.
13. Ob utverzhdenii metodiki opredeleniya raschetnykh velichin pozharnogo riska na proizvodstvennykh obektakh: prikaz MChS Rossii ot 10 iyulya 2009 g. № 404 (On Approval of the Methodology for Determining Calculated Values of Fire Risk at Production Facilities: Order of EMERCOM of Russia of July 10, 2009 № 404). Available at: http://docs.cntd.ru/document/902170886 (accessed: October 23, 2017).
14. CPR 14E Methods for the Calculation of Physical Effects (Yellow Book). Part 2. Hague: Gevaarlijke Stoffen, 2005. 870 p.
15. CPR 16E Methods for the Determination of Possible Damage (Green Book). Hague: Directorate-General of Labour of the Ministry of Social Affairs and Employment, 1992. 337 p.
16. Butler C.J., Royle M. Experimental data acquistion for validation of a new vapour cloud fire (VCF) modeling approach. Report HSL/2001/15/ Health and safety Laboratory. Buxton, 2000. Available at: http://www.hse.gov.uk/Research/hsl_pdf/2001/hsl01-15.pdf (accessed: January 09, 2018).
17. Rukovodstvo TOXI+Risk (TOXI+Risk Guide). Available at: https://toxi.ru/polzovateliam/dokumentatsiia (accessed: January 09, 2018).
18. Glebova E.V., Fomina E.E. International cooperation as a factor of increasing preparation level of masters and bachelors. Sbornik materialov VI Vseros. soveshchaniya zaveduyushchikh kafedrami po voprosam obrazovaniya v oblasti tekhnosfernoy bezopasnosti, bezopasnosti zhiznedeyatel'nosti, zashchity okruzhayushchey sredy i prirodoobustroystva (Collection of research papers of VI All-Russian Meeting of the Heads of Departments on the Issues of Education in the Field of Technosphere Safety, Life-sustaining Activity Safety, Environmental Protection and Environmental Engineering). Rostov-na-Donu: DGTU, 2017. pp. 118–123.