Журналы →  Gornyi Zhurnal →  2019 →  №5 →  Назад

Название Justitification of mining and transportation equipment systems for surface ore mines in the North
DOI 10.17580/gzh.2019.05.11
Автор Kuznetsov D. V., Kosolapov A. I., Malofeev D. E.
Информация об авторе

Polyus Project, Krasnoyarsk, Russia:

D. V. Kuznetsov, Leading Engineer, Candidate of Engineering Sciences, kuznetsovDV@mail.ru


Siberian Federail University, Krasnoyarsk, Russia:
A. I. Kosolapov, Head of Chair, Professor, Doctor of Engineering Sciences


POLYUS, Moscow, Russia:
D. E. Malofeev, Head of Engineering Department, Candidate of Engineering Sciences


The results of the fulfilled research in explanation of complex mechanization structures rational application conditions for open cast mines of the North are presented. The peculiarities of mining equipment selection at the present stage of geotechnology development are considered as well as technical re-equipment of open casts. The initial factors influencing the choice are defined and structured. Main procers of mining machinery introduced to the market are specified, and the algorithm for finding competitive proposalks and their technical-and-economic analysis is suggested. As a result of numerical research and mining modelling, the dynamics of specific cumulative expenses connected with purchase and operation of drilling rigs, excavators, dump trucks, bulldozers of various manufacturers is determined, as well as their optimal timing of service is proved. On this basis, the efficient use areas of modern mining equipment are defined under the examined conditions. Moreover the regularities of the parameters influence on the open cast production capacity are implemented. It is illustrated how to select an equipment system for a preset production capacity so that cost of drilling, blasting, extraction, loading, hualiage and doszing is minimal. In addition it has been stated that the increase in the open cast mine production governs determines the growth of the excavator bucket capacity and, consequently, the diameter of the drill bit, duty dump truck and the dozer blade capacity. Based on that, the evaluatioon procedure is developed for mining and transportation equipoment systrems for open pit ore mining n the severe climatic conditions, and the obtained results are used in phase IV planning and design for Russia’s largest open pit gold mine Vostochny.

Ключевые слова Sever climatic conditions, mining and transportation equipment systems, electric rope shovels, hydraulic shovels, mining equipment life span, open pit production capacity, deeper horizons, open pit depth
Библиографический список

1. Ilin S. A., Kovalenko V. S., Pastikhin D. V. Increasing of economic efficiency of open-cast. Gornyi Zhurnal. 2012. No. 6. pp. 56–65.
2. Kuznetsov D. V. Justification of mining and transportation equipment systems for open pit mining of ore deposits in severe climatic conditions : thesis of inauguration of Dissertation … of Candidate of Engineering Sciences. Krasnoyarsk, 2015. 19 p.
3. Market Analysis and Forecast Loading & Haulage Equipment : Report Prospectus. The Parker Bay Company, 2015. Available at: http://parkerbaymining.com/wp-content/uploads/2016/01/PBCo-Loading-and-Haulage-Equipment-Report-2015-Abstract.pdf (accessed: 19.03.2019).
4. Poderni R. Yu. Analysis of the state-of the art of the surface mine machinery world market. Gornaya promyshlennost. 2013. No. 4(110). p. 48.
5. Poderni R. Yu. World market of advanced extraction-and-loading machines for open pit mining. GIAB. 2015. No. 2. pp. 148–167.
6. Runge I. C. Economics of Mine Planning and Equipment Selection. Mine Planning and Equipment Selection : Proceedings MPES 2010. Fremantle, Western Australia, 2010. pp. 13–22.
7. Burt C. N., Caccetta L. Equipment Selection for Mining: With Case Studies. Cham : Springer International Publishing, 2018. 155 р.
8. Yavuz M. Equipment selection based on the AHP and Yager’s method. The Journal of The Southern African Institute of Mining and Metallurgy. 2015. Vol. 115, Iss. 5. pp. 425–433.
9. Rzhevsky V. V. Open pit mining. Moscow : Librokom, 2019. Book 2 : Technology and integrated mechanization. 552 p.
10. Anistratov K. Yu. Method of integrated mechanization structuring in open pit mines : thesis of inauguration of Dissertation … of Doctor of Engineering Sciences. Apatity, 2013. 42 p.
11. Hall B. Optimum Equipment Management Through Life Cycle Costing. Mine Planning and Equipment Selection : Proceedings MPES 2010. Fremantle, Western Australia, 2010. P. 333–340.
12. Burt C. N., Caccetta L. Equipment Selection for Surface Mining: A Review. Interfaces. 2014. Vol. 44, Iss. 2. pp. 143–162.
13. Komlenovich D. Multi-criterion approach to selection of mining equipment. Gornoe delo. 2017. No. 2. pp. 10–19.
14. Kosolapov A. I., Malofeev D. E., Kuznetsov D. V. Justification of application of technological complexes for development of ore mining deposits in harsh weather conditions. Izvestiya vuzov. Gornyi zhurnal. 2015. No. 2. pp. 4–11.
15. VNTP 35–86. Process design norms for open pit mines in noferrous metallurgy. Moscow : Mintsvetmet SSSR, 1986. Available at: http://docs.cntd.ru/document/1200027758 (accessed: 19.03.2019).
16. Kuleshov A. A. Design and operation of mechanical transport for open pit mines : Reference book. Part 1. Saint-Petersburg : Sankt-Peterburgskiy gornyi institut, 1994. 230 p.
17. Iakovlev V. L., Iakovlev V. A. Open pit transport systems formation with the account of adaptation to deep-lying complex-structured deposits development changing conditions. Izvestiya vuzov. Gornyi zhurnal. 2018. No. 6. pp. 118–126.
18. Zhuravlev A. G. Substantiation of rational technical parameters of mining transport machines. GIAB. 2016. Special issue 21. Problems of complex mastering of georesources. pp. 75–87.
19. Zhuravlev A. G. Tendencies of open pit transport systems progress employng robotic machines. Problemy nedropolzovaniya. 2014. No. 3. pp. 164–175.

Language of full-text русский
Полный текст статьи Получить