The increase in the growth rate of mining and the introduction of high-performance
dredging and loading and transport equipment have led to the development of new directions in
the field of improving the means of delivery of rock mass. The peculiarity and constant
complication of mining-geological and mining-technical conditions of open-pit mining operations
has given specificity not only to the conditions and mode of operation of high-performance
excavation, loading and transport equipment in quarries, but also led to the need for its
information support during mining operations. The experience of large quarries shows that the
formation of transport mechanisms and control of their parameters is possible only on the basis of
taking into account the regularity of the development of the quarry space, mining conditions, as
well as studies of the dependence of the energy intensity of road transport with various mining
factors.
The increase in the growth rate of mining and the introduction of high-performance
dredging and loading and transport equipment have led to the development of new directions in
the field of improving the means of delivery of rock mass. The peculiarity and constant
complication of mining-geological and mining-technical conditions of open-pit mining operations
has given specificity not only to the conditions and mode of operation of high-performance
excavation, loading and transport equipment in quarries, but also led to the need for its
information support during mining operations. The experience of large quarries shows that the
formation of transport mechanisms and control of their parameters is possible only on the basis of
taking into account the regularity of the development of the quarry space, mining conditions, as
well as studies of the dependence of the energy intensity of road transport with various mining
factors.
| № | Author name | position | Name of organisation |
|---|---|---|---|
| 1 | Naimova R.S. | teacher | TSTU |
| 2 | Abdusamatova N.S. | teacher | TSTU |
| 3 | Mirzaev A.A. | teacher | TSTU |
| № | Name of reference |
|---|---|
| 1 | N.N. Melnikov. Great depths - new technologies. “Bulletin of the of Kolsky Scientific Center of the Russian Academy of Sciences”, 2013. 58. |
| 2 | K.Y. Anistratov. Development of a method for forming the structure of complex mechanization of mining operations in quarries. “Dissertation. Doctor. Technical. Sciences. Appatity”, 2013. 348. |
| 3 | K.Y. Anistratov. Global trends in the development of the structure of the quarry equipment fleet. “Mining Industry Magazine”, 2011. 22. |
| 4 | L.Y. Yang., Ch.X. Ding. Fracture mechanism due to blast-imposed loading under high static stress conditions. “International journal of rock mechanics and mining sciences”, 2018. 150 |
| 5 | G. Shekhar., A. Gustafson., P. Boeg-Jensen., L. Malmgren., H. Schunnesson. Draw control strategies in sublevel caving mines. A baseline mapping of LKAB’s Malmberget and Kiirunavaara mines. “The Journal of the Southern African Institute of Mining and Metallurgy”, 2018. 723. |
| 6 | I.F. Zharikov. “Increasing the efficiency of rock crushing in deep open pits explosive case”, 2018. 48. |
| 7 | Y.A. Bakhturin. Modern trends in the development of career transport. “Mining information analytical bulletin seminar”, 2009. 403. |
| 8 | E.B. Shevkun., A.V. Leshchinsky., Y.A. Lysak., A. Plotnikov. Peculiarities of explosive loosening at extended deceleration intervals. “Oral information and analytical bulletin”, 2017. 272 |
| 9 | V.D. Butkin., Y.A. Smirnov. Energy assessment of the effectiveness of the use and specialization of mining dump trucks: New technological solutions for open-pit mining of coal deposits: “Saint Petersburg. Scientific. tr. Kuzbas. politech, in-t. –Kemerovo”, 1991. 82. |
| 10 | A.A. Bredexin. Implementation of advanced technologies in the automobile transport system of the deep quarry Muruntau: “Mining Bulletin of Uzbekistan”, 2007. 3. |
| 11 | A.P. Grchiko. Stationary machines Part 2 Mine dewatering, fan and pneumatic installations. “Publishing house”, 2007. 24. |
| 12 | Y.I. Lel., I.V. Zyryanov., D.Kh. Ilbuldin., O.V. Musikhina., A.I. Glebov. Methodology for normalizing fuel consumption by dump trucks in deep quarries. “News USGU (Ural state mining university”, 2017. 66 |
| 13 | N.V. Kalinkevich., I.A. Melnik. Turbomachines. Fundamentals of the theory. “Sumy State University”, 2017. 78. |
| 14 | I.M. Yaltanets., M.I. Shchadov. Workshop on open pit mining. “Publishing house”, 2003. 420 |
| 15 | A.Y. Zakharov. Basic calculations of career transport. “Kemerovo KSTU Kuzbass State Technical University”, 2012. 110 |
| 16 | A.S. Zharov. Methods for a comprehensive assessment of the effectiveness and quality of technology for drilling deep exploratory wells. “Thesis. Candidate technical Sciences”, Moscow, 2010. 185. |
| 17 | A.Y. Voronov. Optimization of indicators of operational performance of excavatorautomobile complexes of cuts. “Candidate technical Sciences”, 2015. 185. |
| 18 | K.Y. Anistratov. Development of a method for forming the structure of complex mechanization of mining operations in quarries. “Candidate technical Sciences Apatity”, 2013. 42. |
| 19 | Sh.V. Karimov. About the need to use dump trucks in deep quarries // XVIII international correspondence scientific specialized conference. “International scientific review of the problems of natural sciences and medicine”, Boston. USA, 2020. 31 |