GEOTECHNOLOGY

Original Paper

UDC 622.271:621.879:658.012.122.001.57 © A.A. Khoreshok, A.V. Katsubin, D.M.Dubinkin, S.O.Markov, M.A. Tyulenev, 2022

ISSN 0041-5790 (Print) • ISSN 2412-8333 (Online) • Ugol’ – Russian Coal Journal, 2022, ¹ S12, pp. 76-81

DOI: http://dx.doi.org/10.18796/0041-5790-2022-S12-76-81

Title

USING THE MODULAR METHOD TO CALCULATE THE INDICATORS OF MINING OF THE COAL-BEARING ZONE AT OPENCAST MINES

Authors

Khoreshok A.A.1, Katsubin A.V.1,2,Dubinkin D.M.1,Markov S.O.3, Tyulenev M.A.1

1Gorbachev’s Kuzbass State Technical University, Kemerovo, 650000, Russian Federation

2Mine No. 12 LLC, Kiselevsk, 652718, Russian Federation

3Mezhdurechensk Branch of Gorbachev’s Kuzbass State Technical University, Mezhdurechensk, 652881, Russian Federation

Authors Information

Khoreshok A.A., Doctor of Engineering Sciences, Professor, Director of the Mining Institute

Katsubin A.V., Post-graduate student Department of Open Pit Mining, General Director

Dubinkin D.M., PhD (Engineering), Associate Professor Department of Metal-Cutting Machines and Tools

Markov S.O., PhD (Engineering), Associate Professor,

Tyulenev M.A., PhD (Engineering), Associate Professor Department of Open Pit Mining, e-mail: tma.geolog@kuzstu.ru

Abstract

Bringing new technologies, based on the use of hydraulic backhoes, in a variety of mining and geological conditions of the coal deposits of Kuzbass, inevitably imposes a number of scientific and practical problems. One of them is to establish the area and limits of independent or joint application in the coal-bearing zone of mechanical (rope) shovels and backhoes, thereby ensuring maximum profit while using the advantages of both types of equipment. The task of solving this issue is certainly relevant. In this article, the authors propose to use the modular method as a tool to calculate the indicators of layer development when different types of excavation and loading equipment work jointly.

Keywords 

Open-pit mining, Hydraulic shovels, Rope shovels, Coal-bearing zone, Rock and coal panel, Modular method.

References

1. Kolesnikov V., Cehlar M. & Tyuleneva E. Overview of excavation and loading operations in the coal-bearing zones at Kuzbass open pit mines. Journal of Mining and Geotechnical Engineering, 2018, Vol. 2, (2). pp. 36-50. DOI: 10.26730/2618-7434-2018-2-36-49.

2. Miliy S. Evaluation of technology for development of inclined and steep coal deposits in Kuzbass. Journal of Mining and Geotechnical Engineering, 2020, Vol. 1, (8), pp. 45-73. DOI 10.26730/2618-7434-2020-1-45-73.

3. Strelnikov A., Markov S., Rattmann L. & Weber D. Theoretical Features of Rope Shovels and Hydraulic Backhoes Using at Open Pit Mines. E3S Web of Conferences, 2018, (41), Article 01003. DOI 10.1051/e3sconf/20184101003.

4. Litvin O., Makarov V., Strelnikov A. & Tyuleneva E. Study of the backhoe's digging modes at rock face working-out. E3S Web of Conferences, 2019, (105), Article 01024. DOI 10.1051/e3sconf/201910501024.

5. Makridin E.V., Tyulenev M.A., Markov S.O. et al. Utilization of overburden rocks to improve the environmental safety of the coal mining region. Gornyj informatsionno-analiticheskij byulleten?, 2020, (12), pp. 89-102. (In Russ.).

6. Kolesnikov V. & Janocko J. On the issue of classification of methods and schemes of quarry fields opening. Journal of Mining and Geotechnical Engineering, 2020, Vol. 2, (9), pp. 42-74. DOI: 10.26730/2618-7434-2020-2-42-74.

7. Hrehova D., Cehlar M., Rybar R. & Mitterpachova N. Mining technology with drilling-blasting operations. 12th International Multidisciplinary Scientific GeoConference and EXPO - Modern Management of Mine Producing, Geology and Environmental Protection, SGEM 2012 1, 675-682.

8. Ozdogan M. & Ozdogan H. Cycle time segments of electric rope shovels – a case study. Scientific Mining Journal, 2019, Vol. 58, (1), pp. 73-79. DOI: 10.30797/madencilik.537648.

9. Bumo-Motswaiso K. & Suglo R.S. Economic evaluation of materials handling systems in a deep open pit mine. International Journal of Mining and Mineral Engineering, 2022, Vol. 13, (1), pp. 37-48

10. Bosikov I., Klyuev R., Tavasiev V. & Gobeev M. Influence of transport and road complex on the natural-technical system. IOP Conference Series: Materials Science and Engineering, 2020, (918), Article 012223.

11. Mitrev R., Janosevic D. & Marinkovic D. Dynamical modelling of hydraulic excavator considered as a multibody system. Tehnicki Vjesnik, 2017, (24), pp. 327-338. DOI: 10.17559/TV-20151215150306.

12. Hodaverdi T. & Akyildiz O. Investigation of blast fragmentation models in a sandstone quarry. Scientific Mining Journal, 2020, Vol. 59, (3), pp. 145-156. DOI: 10.30797/madencilik.792386.

13. Kluyev R.V., Bosikov I.I. & Youn R.B. Analysis of the functioning of the natural-industrial system of mining and metallurgical complex with the complexity of the geological structure of the deposit. Sustainable Development of Mountain Territories, 2016, Vol. 8, (3), pp. 222-230.

14. Janosevic D., Mitrev R., Andjelkovic B. & Petrov P. Quantitative measures for assessment of the hydraulic excavator digging efficiency. Journal of Zhejiang University: Science A, 2012, Vol. 13, (12), pp. 926-942. DOI 10.46544/AMS.v27i2.02.

15. Loginov E.V. & Tyuleneva T.A. Control of quarry parameters to improve the efficiency of hydraulic backhoes. Ugol’, 2021, (12), pp. 6-10. (In Russ.). DOI: 10.18796/0041-5790-2021-12-6-10.

16. Nieto A. & Muncher B. An applied economic assessment and value maximisation of a mining operation based on an iterative cut-off grade optimisation algorithm. International Journal of Mining and Mineral Engineering, 2021, Vol. 12, (4), pp. 309-326.

17. Vanek M., Valverde G.F., Cerny I. & Hudecek V. Coal Handling Operational Risk Management: Stripped Overburden Transport in Brown Coal Open Pit Mines. Acta Montanistica Slovaca, 2020, Vol. 25, (2), pp. 170-181. DOI: 10.46544/AMS.v25i2.4.

18. Kiseleva T.V., Mikhailov V.G. & Mikhailov G.S. Contemporary trends in improvement of organizational-economic mechanism of environmental management. IOP Conference Series: Earth and Environmental Science, 2017, Vol. 84, (1), Article 012044.

19. Pavlenko M.V., Barnov N.G., Kuziev D.A., Kenzhabaev K.N. & Monzoev M.V. Vibration impact through wells and the technology of degassing of the preparation of low-permeability coal seam. Ugol’, 2020, (1), pp. 36-40. (In Russ.). DOI: 10.18796/0041-5790-2020-1-36-40.

20. Cehlar M., Janocko J., Simkova Z. & Pavlik T. Assessment process of concept for mining and its impact on the region. E3S Web of Conferences, 2017, (15), Article 01019. DOI 10.1051/e3sconf/20171501019.

21. Bettens S.P., Siegrist P.M. & McAree P.R. How do operators and environment conditions influence the productivity of a large mining excavator? International Journal of Mining and Mineral Engineering, 2022, Vol. 13, (1), pp. 18-36. DOI: 10.1504/IJMME.2022.10048881.

22. Volkova O.I., Zolotukhin, N.A., Zolotukhin V.M. & Yazevich M.Y. Influence of Water Treatment Plants on the Ecological Situation in Industrialized Regions. IOP Conference Series: Earth and Environmental Science, 2020, Vol. 543, (1), Article 012012.

23. Ulewicz R., Krstic B.& Ingaldi M. Mining Industry 4.0 – Opportunities and Barriers. Acta Montanistica Slovaca, 2022, Vol. 27, (2), pp. 291-305.

24. Dubinkin D.M. A method to determine the loads acting during loading and dumping of the load platform (box) of a mining dump truck // Gornoe oborudovanie i elektromekhanika, 2022, (3), pp. 31-49. (In Russ.).

25. Markov S.O., Murko E.V. & Nepsha F.S. Grain size distribution of waste rock masses of Kuzbass coal strip mines. Mining Science and Technology, 2021, Vol. 6, (4). pp. 259-266. DOI: 10.17073/2500-0632-2021-4-259-266.

26. Dubinkin D.M. Fundamentals of digital design of autonomous dump trucks. Gornoe oborudovanie i elektromekhanika, 2022, (2), pp. 39-50. (In Russ.).

Acknowledgements

This work was financially supported by the Ministry of Science and Higher Education of Russian Federation under Agreement ¹075-15-2022-1198 dated 30.09.2022 with the Gorbachev Kuzbass State Technical University on complex scientific and technical program of full innovation cycle: "Development and implementation of complex technologies in the areas of exploration and extraction of solid minerals, industrial safety, bioremediation, creation of new deep conversion products from coal raw materials while consistently reducing the environmental impact and risks to human life" (the "Clean Coal - Green Kuzbass" Integrated Scientific and Technical Programme of the Full Innovation Cycle) as part of implementing the project "Development and creation of an unmanned shuttle-type mine truck with a payload of 220 tonnes" in terms of research, development and experimental-design work.

For citation

Khoreshok A.A., Katsubin A.V.,Dubinkin D.M.,Markov S.O. & Tyulenev M.A. Using the modular method to calculate the indicators of mining of the coal-bearing zone at opencast mines. Ugol’, 2022, (S12), pp. 76-81. (In Russ.). DOI: 10.18796/0041-5790-2022-S12-76-81.

Paper info

Received November 1, 2022

Reviewed November 15, 2022

Accepted November 30, 2022