ArticleName |
Consulting on energy management systems in mining industry |
ArticleAuthorData |
National University of Science and Technology—NUST MISIS, Moscow, Russia:
Lyakhomskii A. V., Professor, Doctor of Engineering Sciences, mggu.eegp@mail.ru Petrochenkov A. B., Professor, Doctor of Engineering Sciences Perfileva E. N., Associate Professor, Candidate of Engineering Sciences
JSC SUEK, Moscow, Russia:
Petukhov S. V., Deputy Head of Department, Candidate of Engineering Sciences |
Abstract |
The experience gained in energy use and energy saving management is described. The relevancy of the energy efficiency consulting and control in the framework of the energy management systems, with integration of engineering and administration components of the energy use process with association of personnel on the basis of a unified production-and-organization platform. The conception and the functions of the consulting services on the energy management systems in industry are discussed. As a case-study of SUEK’s coal mines in the Krasnoyarsk Krai and in the Republic of Khakassia, the application of the programming and analysis system within the consulting services on the energy resource management integrated in the existing intelligence systems of energy control in mines is demonstrated. |
References |
1. Energy Saving and Energy Efficiency Growth in the Russian Federation: State Report. Moscow : Ministerstvo ekonomicheskogo razvitia RF, 2019. 114 p. 2. Guidance on Energy Efficiency Improvement and Management in Coal Mining Industry. Approved by the Ministry of Energy of Russia, Order No. 853. Moscow, 2019. 3. ISO 50001:2018(R). Systemes demanagement de l’energie—Exigences et recommandations de mise enoeuvre. Introduces: 2018-08-01. Switzerland, 2018. 4. GOST 50001-2012. Energy management systems – Requirements with guidance for use. Moscow : Standartinform, 2013. 5. Best Available Technologies : Reference Book 48-2017. Energy Efficiency Improvement During Economic and/or Other Activities. Moscow, 2017. 6. GOST 56828.24-2017. Best available techniques. Energy saving. Guidance on the application of the best available techniques for increasing the energy efficiency energy saving. Moscow : Standartinform, 2019. 7. Available at: https://normativ.kontur.ru/document?moduleId=1&documentId=394824 (accessed: 02.12.2021). 8. Available at: https://old.economy.gov.ru/minec/about/structure/dep-Gostarif/doc20100115_02 (accessed: 02.12.2021). 9. Coal Industry Development Program of Russia up to 2035. Moscow, 2020. Available at: https://www.rosugol.ru/programme/%D0%9F%D0%A0%D0%A3%D0%9F-2035.pdf (accessed: 02.12.2021). 10. Available at: http://www.kremlin.ru/acts/bank/33591 (accessed: 02.12.2021). 11. GOST 31607-2012. Energy conservation. Norm-method securing. Basic concept. Moscow : Standartinform, 2019. 12. Karpenko S. M., Dyomin A. A. On the question of energy management’s effectiveness increasing at industrial enterprises. Energy Safety and Energy Economy. 2014. No. 4. pp. 10–15. 13. Petrochenkov A. B., Romodin A. V., Luzyanin I. S. et al. Developing of the decision support system for intelligent control of oil producing installations on the oil and gas fields. Information-Measuring and Control Systems. 2018. No. 9. pp. 59–67. 14. Olunina L. A., Larin A. N., Larina I. V. Modern tools energy efficiency. Innovatsionnaya ekonomika i obschestvo. 2015. No. 2(8). pp. 86–92. 15. Logacheva D. A. Improving energy efficiency of industrial enterprises. Ekonomika i predprinimatelstvo. 2013. No. 6(35). pp. 388–391. 16. Brahmana R. K., Ono H. Energy efficiency and company performance in Japanese listed companies. International Journal of Energy Technology and Policy. 2020. Vol. 16, No. 1. pp. 24–40. 17. Amado L. F., Marto H. J., Tavares P. F. Energy efficiency measures for an electrical material industry. International Journal of Energy Production and Management. 2019. Vol. 4, Iss. 3. pp. 217–229. 18. Wakabayashi M., Arimura T. H. The role of staff assignment in implementing energy-conserving practices in small- and medium-sized firms: an empirical analysis based on data from a Japanese survey. Energy Efficiency. 2020. No. 13(8). pp. 1763–1780. 19. Arriola-Medellín A. M., López-Cisneros L. F., Aragón-Aguilar A. et al. Energy efficiency to increase production and quality of products in industrial processes: case study oil and gas processing center. Energy Efficiency. 2019. No. 12(6). pp. 1619–1634. 20. Mahapatra K., Alm R., Hallgren R. et al. A behavioral change-based approach to energy efficiency in a manufacturing plant. Energy Efficiency. 2018. Vol. 11, No. 2. pp. 1103–1116. |