Journals →  Eurasian mining →  2019 →  #2 →  Back

INDUSTRY SAFETY AND LABOUR PROTECTION
ArticleName Occupational health and safety digitalization in the coal industry
DOI 10.17580/em.2019.02.15
ArticleAuthor Savon D. Yu., Aleksakhin A. V., Skryabin O. O., Goodilin A. A.
ArticleAuthorData

National University of Science and Technology—MISIS, Moscow, Russia:

Savon D. Yu., Professor, Doctor of Economic Sciences, di199@yandex.ru
Aleksakhin A. V., Associate Professor, Candidate of Economic Sciences
Skryabin O. O., Associate Professor, Candidate of Economic Sciences
Goodilin A. A., Senior Lecturer

Abstract

The article discusses problems of occupational health and safety in coal mines. These problems draw great concern both of the government represented by control and supervision agencies and the owners and management of coal mining companies which realize responsibility of business for safety and comfort of miners at work. Any accident inflicts a heavy economic loss to a mine or a business; moreover, it causes irreparable social damage connected with injuries, hurt to health or mortality. The authors believe the hazardous impact of industrial factors on production performance is much higher in mining than in the other industries for the reason that a mineral deposit is concurrently an object of economic activity and a factor of risk. Therefore, mines are assumed as the hazardous production facilities with high probability of emergency. The occupational health and safety control is specific for its functioning indirectly governs efficiency in a number of business activities of a company: production, commerce, economy, social sphere and ecology. The article reviews operation of one of the leading coal mining companies proposing and introducing advanced digital solutions in occupational health and safety. Mining industry raises high safety standards and, thus, uses many innovations, for example, mobile positioning and control of employees in case of emergency, introduction of the United Automated Control Center information and analysis system, etc. Currently, it is undertaken to change ERP system from SAP NANA Platform to SAP Cloud Platform, which will expand the performance range of the system in all structures of the company.

keywords Digitalization, coal industry, labor protection, occupational health and safety, injuries
References

1. Lanjouw J. O., Schankerman M. Characteristics of patent litigation: a window on competition. RAND journal of economics. 2001. Vol. 32, No. 1. pp. 129–151.
2. Nordhaus W. D. Invention, Growth and Welfare. A theoretical treatment of technological change. Technology and Culture. 1971. Vol. 12(2).
3. Samarina V. P., Skufina T. P., Samarin A. V., Baranov S. V. Some problems of anti-recessionary public management in Russia at present. International Review of Management and Marketing. 2016. Vol. 6, No. 6S. pp. 38–44.
4. Federal Environmental, Industrial and Nuclear Supervision Service: Annual Report 2017. Available at: http://www.gosnadzor.ru/public/annual_reports/ (accessed: 4.02.19).
5. Zholobova Yu. S., Kushchiy N. A., Savon D. Yu., Safronov A. E. Minimization of ecological impact by application of new technologies of coal preparation and mining waste disposal. Gornyi Zhurnal. 2016. No. 5. pp. 109–112. DOI: 10.17580/gzh.2016.05.18
6. Kazakov V. B., Kazakov V. B., Kalacheva L. V., Petrov I. V., Surat I. L. Coal industry development in the situation of highperformance jobs creation, conversion to the best available technologies and import substitution. Ugol. 2017. No. 6. pp. 48–50.
7. Peshkova M. Kh., Savon D. Yu. Mechanism of the government and private business partnership in ecological-and-economic appraisal of mining waste. Gornyi Zhurnal. 2016. No. 10. pp. 37–41. DOI: 10.17580/gzh.2016.10.07
8. Tulupov A. S. Compensation for environmental damage in the economy of mining. Gornyi Zhurnal. 2017. No. 8. pp. 61–65. DOI: 10.17580/gzh.2017.08.11
9. Chagger H. K. et al. The formation of dioxins and other toxic organic compounds from the combustion of biofuels. Swedish Flamt Days, 2015.
10. Clarke Marjiote J. Waste characterization studies and the solid waste hierarchy. Resour. Recycl. 2016. Vol. 11, No. 2. pp. 75–78; 80–84.
11. Jonson J. Hazardous waste incineration delayed by EPA for more than a year. Environ. Environmental Science and Technology. 2017. Vol. 31, No. 43. pp. 4.
12. Fershtman C., Kamien M. I. Cross licensing of complementary technologies. International Journal of Trade Organization. 2012. Vol. 10(5). pp. 21–24.
13. Kamien M. I., Schwartz N. L. On the degree of rivalry for maximum innovative activity. The Quarterly Journal of Economics. 1976. Vol. 40. pp. 245–260.
14. Khoroshavina N. S., Sharkova A. V., Vasilyeva O. N., Borisova O. V., Sokolov K. O. The classification matrix of sources of new knowledge as a tool for planning a company’s innovation activity. Espacios. 2018. Vol. 39, No. 41. p. 10.
15. Samarina V., Skufina T., Samarin A., Ushakov D. Alternative energy sources: opportunities, experience and prospects of the Russian regions in the context of global trends. International Journal of Energy Economics and Policy. 2018. Vol. 8(2). pp. 140–147.
16. Samarina V. P., Skufina T. P., Baranov S. V. Comparative estimation of power efficiency of countries and world regions. Actual Problems of Economics. 2015. Vol. 11(173). pp. 127–136.
17. Savon D. Yu., Zhaglovskaya A. V., Safronov A.E., Sala D. Development of patenting in coal industry. Eurasian Mining. 2018. No. 1. pp. 8–10. DOI: 10.17580/em.2018.01.02

Full content Occupational health and safety digitalization in the coal industry
Back