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ENVIRONMENTAL PROTECTION
ArticleName Economic efficiency of technological facilities for partial replacement of pulverized coal fuel by coal–water slurry fuel at thermal power plants
DOI 10.17580/gzh.2022.02.13
ArticleAuthor Murko V. I., Chernikova O. P., Malyshev Yu. N., Yuriev A. B.
ArticleAuthorData

Siberian State Industrial University, Novokuznetsk, Russia:

V. I. Murko, Professor, Doctor of Engineering Sciences
O. P. Chernikova, Head of Department, Associate Professor, Candidate of Economic Sciences, chernikovaop@yandex.ru
A. B. Yuriev, Rector, Associate Professor, Doctor of Engineering Sciences

Vernadsky State Geological Museum, Russian Academy of Sciences, Moscow, Russia:

Yu. N. Malyshev, President, Academician of the Russian Academy of Sciences

Abstract

Increasing the level of technological innovation and energy efficiency in industry is one of the strategic landmarks for the dynamically developing national economy, which determines its growth rate, production capabilities and level of costs in the industry. In the meanwhile, the global power generation sector follows 3E Concept: Economy, Energy and Environment. Its essence lies in the close interconnection of these three categories: “clean” energy should ensure economic growth without harm to the environmental situation in the country and its regions. The Kemerovo Region implements a new Clean Coal – Green Kuzbass concept. This is a largescale activity plan meant to transform the mining region into an ecologically safe territory with comfortable conditions for human life and health. Within the framework of this concept, the project on Technological Facilities for Partial Replacement of Pulverized Coal Fuel by Coal–Water Slurry Fuel at Thermal Power Plants was proposed. The main objectives of the project are: to improve the environmental situation in the Kemerovo Region; to reduce the cost of generating electric andthermal energy; to create new jobs in the region; to scale up the activities, including the global market access. Indicators of the economic efficiency of the proposed investment project indicate its expediency both for suppliers (preparation and transportation of coal-water fuel) and for consumerIncreasing the level of technological innovation and energy efficiency in industry is one of the strategic landmarks for the dynamically developing national economy, which determines its growth rate, production capabilities and level of costs in the industry. In the meanwhile, the global power generation sector follows 3E Concept: Economy, Energy and Environment. Its essence lies in the close interconnection of these three categories: “clean” energy should ensure economic growth without harm to the environmental situation in the country and its regions. The Kemerovo Region implements a new Clean Coal – Green Kuzbass concept. This is a largescale activity plan meant to transform the mining region into an ecologically safe territory with comfortable conditions for human life and health. Within the framework of this concept, the project on Technological Facilities for Partial Replacement of Pulverized Coal Fuel by Coal–Water Slurry Fuel at Thermal Power Plants was proposed. The main objectives of the project are: to improve the environmental situation in the Kemerovo Region; to reduce the cost of generating electric and thermal energy; to create new jobs in the region; to scale up the activities, including the global market access. Indicators of the economic efficiency of the proposed investment project indicate its expediency both for suppliers (preparation and transportation of coal-water fuel) and for consumers (steam shop of the West Siberian TPP). Herewith, implementation of the project is accompanied by both the environmental effect of the safe coal–water slurry fuel and the social effect as the increased employments (steam shop of the West Siberian TPP). Herewith, implementation of the project is accompanied by both the environmental effect of the safe coal–water slurry fuel and the social effect as the increased employment.

keywords Еnergy efficiency, coal–water slurry fuel, coal slurry, ecology, best available technologies.
References

1. Pibin Guo, Juan Kong, Yanshan Guo, Xiuli Liu. IIdentifying the influencing factors of the sustainable energy transitions in China. Journal of Cleaner Production. 2019. Vol. 215. pp. 757–766.
2. Hussain A., Arif S. M., Aslam M. Emerging renewable and sustainable energy technologies: State of the art. Renewable and Sustainable Energy Reviews. 2017. Vol. 71. pp. 12–28.
3. Chernikova O., Zlatitskaya Y., Klimashina Y. Benchmarking sustainable energy technologies in cross-border regions: issues of economic efficiency. IOP Conference Series: Earth and Environmental Science. 2019. Vol. 395. 012102. DOI: 10.1088/1755-1315/395/1/012102
4. Xiangyan Qian, Di Wang, Jia Wang, Sai Chen. Resource curse, environmental regulation and transformation of coal-mining cities in China. Resources Policy. 2019. 101447. DOI: 10.1016/j.resourpol.2019.101447
5. Cherkasova T. G., Subbotin S. P., Cherkasova E. V., Nevedrov A. V., Tikhomirova A. V. et al. Innovation technologys of coal and man-made waste treatment under “Clean coal – Green Kuzbass” project. Vestnik Kuzbasskogo tekhnicheskogo universiteta. 2020. No. 6(142). pp. 40–45.
6. Boyko N. A., Romasheva N. V. Management of sustainable development of a coal company based on the assessment and realization of its potential. Ekonomika i predprinimatelstvo. 2021. No. 4(129). pp. 976–980.
7. Zakondyrin A. E. Best available techniques in mining industry: topical issues and solution methods. GIAB. 2020. No. 6-1. pp. 55–64.
8. Mekush G. E., Panov A. A. Principles and mechanisms for the formation of the regional ecological standard of Kuzbass. Basic and Applied Aspects of Sustainable Development in Resource Regions : II All-Russian Conference Proceedings. Novokuznetsk, 2020. pp. 95–98.
9. Loktionov V. I., Loktionova E. A. Economic and energy systems: evolution of structural links during the transition to a new paradigm of socio-economic development. Izvestiya Baykalskogo gosudarstvennogo universiteta. 2021. Vol. 31, No. 3. pp. 303–313.
10. Korotkiy I. A., Neverov E. N., Murko V. I., Chernikova O. P. The development of ecologically clean technology for coal use in terms of the coal-water slurry usage. Journal of Physics. 2021. Vol. 1749. 012044. DOI: 10.1088/1742-6596/1749/1/012044
11. Khodakov G. S. Coal-water suspensions in power engineering. Thermal Engineering. 2007. Vol. 54, No. 1. pp. 36–47.
12. Petukhov V. N., Svechnikova N. Yu., Yudina S. V., Gorokhov A. V., Lavrinenko A. A. et al. Utilization of Coal-Flotation Wastes at OAO TsOF Belovskaya. Coke and Chemistry. 2016. Vol. 59, No. 5. pp. 200–203.
13. Murko V. I., Chernikova O. P., Yuriev A. B., Temlyantseva E. N. Potential for pipeline transportation of Kuzbass coal. IOP Conference Series: Earth and Environmental Science. 2021. Vol. 723, No. 5. 052027. DOI: 10.1088/1755-1315/723/5/052027
14. Gunung Oh, Ho Won Ra, Sung Min Yoon, Tae Young Mun, Myung Won Seo et al. Syngas production through gasification of coal water mixture and power generation on dual-fuel diesel engine. Journal of the Energy Institute. 2019. Vol. 92, Iss. 2. pp. 265–274.
15. Vershinina K., Shabardin D., Strizhak P. Burnout rates of fuel slurries containing petrochemicals, coals and coal processing waste. Powder Technology. 2019. Vol. 343. pp. 204–214.
16. Ruikun Wang, Jianzhong Liu, Yukun Lv, Xuemin Ye. Sewage sludge disruption through sonication to improve the co-preparation of coal–sludge slurry fuel: The effects of sonic frequency. Applied Thermal Engineering. 2016. Vol. 99. pp. 645–651.
17. Han Hao, Zongwei Liu, Fuquan Zhao, Jiuyu Du, Yisong Chen. Coal-derived alternative fuels for vehicle use in China: A review. Journal of Cleaner Production. 2017. Vol. 141. pp. 774–790.

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