Ilin S.R., Adorska L.H., Samusia V.I., Kolosov D.L., Ilina I.S. Conceptual bases of intensification of mining operations in mines of Ukraine based on monitoring and condition management of mine hoisting systems

Деталі
Батьківська категорія: Геотехнічна механіка, 2019
Категорія: Геотехнічна механіка, 2019, № 145

Geoteh. meh. 2019, 145, 24-35

https://doi.org/10.1051/e3sconf/201910900030

Conceptual  bases  of  intensification  of  mining  operations  in  mines of  Ukraine  based  on  monitoring  and  condition  managementof  mine  hoisting  systems

1Ilin S.R., 1Adorska L.H., 2Samusia V.I., 2Kolosov D.L., 2Ilina I.S.

1Institute of Geotechnical Mechanics named by N. Poljakov of National Academy of Sciences of Ukraine,2National Technical University "Dnipro Polytechnic" of the Ministry of Education and Science of Ukraine

UDC 622.67.008.6:622.2.002235                     

Language: English

Abstract.

. The article justifies technical and organizational solutions aimed at improving the operational properties of hoisting equipment, the development of methods and means of controlling the operational state of existing systems in complex mining-geological and mining-engineering conditions. The main directions of ensuring the intensification of mining operations are identified, which include the modernization of lifting equipment units that radically increase the operational properties of mine lifting installations and the development of methods and means for monitoring and managing the operational status of existing systems. Technical solutions of a new type of hoisting machines with two consecutive friction pulleys, which have significantly higher load characteristics and allow usage of less metal-intensive and energy-intensive hoisting machines, are considered. The order of estimation of a state of a mine shaft and general types of work on its monitoring are justified. Conceptual foundations of intensification of mining operations in the mines of Ukraine are defined based on modernization of hoisting equipment units and improvement of a control system. The concept lays the scientific and methodological foundations for the formation of a strategy and development plans for a comprehensive survey and risk assessment of mine shafts with long service life. The purpose of such work is to ensure the effective and reliable functioning of the mine hoist and increase its operational safety in the face of intensification of mining operations when moving to large mining depths. The expected results of the functioning of the monitoring system of the operational status of deep vertical shafts of mines and mines are formulated in terms of solving urgent problems of the mining industry of Ukraine. The implementation of such work will solve the social problems of the industry by improving the safety of lifting equipment and significantly reducing industrial injuries during the operation of mine lifting shafts, economic problems by significantly reducing the cost of material resources and reducing the volume of unreasonable shaft repairs due to targeted localization of places of increased emergency risk in trunks.

Keywords: mine lift, mine, shaft, reinforcement, monitoring, concept.

 

References

1. Ilin, S.R., Ilina, S.S. and Samusia, V.I. (2014), Mekhanika shakhtnogo podema [Mine lifting mechanics], NMU, Dnipropetrovsk, UA.

2. Ilin, S.R., Adorska, L.G. and Samusia, S.V. (2014), “Ensuring the safety of the mine rises in the shafts under complex mining and geological and mining conditions”, Geo-Technical Mechanics, no. (119,pp. 20-35.

3. Kolosov, D., Bilous, O., Tantsura H. and Onyshchenko, S. (2018), “Stress-strain state of a flat tractive-bearing element of a lifting and transporting machine at operational changes of its parameters”,  Solid State Phenomena, no 277, pp. 188-201.

4. Kolosov, D., Dolgov, O. and Kolosov, A. (2014), „Analytical determination of stress-strain state of rope caused by the transmission of the drive drum traction”, In  Progressivnye tekhnjljgii dobychi uglia, metana I rudy [Progressive Technologies of Coal, Coalbed Methane, and Ores Mining],  pp. 499-504.

5. Kolosov, D., Dolgov, O., Bilous, O. and Kolosov, A. (2015), “The stress-strain state of the belt in the operating changes of the burdening conveyor parameters,  In Novye razrabotki v gornom deke 2015: teoreticheskie I prakticheskie resheniia razrabotki poleznykh iskopaemykh [New Developments in Mining Engineering 2015: Theoretical and Practical Solutions of Mineral Resources Mining], pp. 585-590.

6. Belmas, I. and Kolosov, D. (2011), “The stress-strain state of the stepped rubber-rope cable in bobbin of winding”, In Tekhnicheskie I geoinformatsionnye sistemy v gornom dele: shkola podzemnogo gornogo dela 2011 [Technical and Geoinformational Systems in Mining: School of Underground Mining 2011], pp. 211-214.

7. Belmas, I.V. (1993), “Stress state of rubber-rope tapes during their random damages”,  Problemy Prochnosti i Nadezhnosti Mashin, no. 6, pp. 45-48.

8. Ilin, S.R., Radchenko, V.K. and Adorska, L.G. (2017), “Risk-forming processes during the operation of mine hoisting installations”, Geo-Technical Mechanics, no134, pp.22-33.

9. Ilin, S.R., Samusia, V.I., Kolosov, D.L., Ilina, I.S. and Ilina, S.S. (2018), “Risk-forming dynamic processes in units of mine hoists of vertical shafts”,  NaukovyiVisnykNatsіonalnohoHіrnychohoUnіversitetu,  no. 5, pp. 64-71.

10. Metodicheskie ukazaniia k raschetu tormoznogo momenta I proverochnomu raschetu na neskolzhenie kanatov v rezhimakh predokhranitelnogo tormozheniia gjlemnykh mashin so shkivom treniia [Guidelines for the calculation of the braking moment and the verification calculation for non-slip of the ropes in the modes of safety braking of hoisting machines with a friction pulley] (1984),USSR Ministry of Coal Industry. VNIIGM named by M.M. Fedorov. Donetsk, SU.

11. Metodika rascheta zhestkikh armirovok vertikalnykh stvolov shakht [Method of calculating rigid reinforcement of vertical shafts] (1994),  VNIIGM named by M.M. Fedorov. Donetsk, UA.

12. Ministry of Industrial Policy of Ukraine (2004), GR 3-032-2004 Dsagnostyka stanu system “kriplennia-masyv” ta “pidyomna posudyna – zhorstke armuvannia” shakhtnykh stovburiv. Poriadok ta metodyka vykonannia [GR 3-032-2004 Diagnostics of the state of the systems of" attachment-array "and" lifting vessel-rigid reinforcement "of mine shafts. Procedure and method of execution},  Kyiv, UA.

13. Ilin, S.R., Samusia, V.I., Ilina, I.S. and Ilina, S.S. (2016) “Influence of dynamic processes in mine hoists on safety exploitation of shafts with broken geometry”, Naukovyi Visnyk Natsіonalnoho Hіrnychoho Unіversitetu,  no. 3,  pp. 42-47.

14. Ilin, S.R., Samusia, V.I., Ilina, I.S. and Ilina, S.S. (2015), “Influence of dynamic processes in mine winding plants on operating safety of shafts with broken geometry”, Theoretical and practical solutions of mineral resources mining. Taylor & Francis group, pp.  425-429.

15. Bondarenko, V.I., Samusia, V.I. and Smolanov, S.N. (2005), « Mobile lifting units for wrecking works in pit shafts”, Gornyi Zhurnal,no. 5, pp. 99-100.

16. Ilin, S.R., Adorska, L.G. and Posled, B.S. (2011), |Measuring and analytical computer technology for diagnosing and managing the condition of equipment in mine lifting complexes”, Geo-Technical Mechanics, no.93,pp. 28-38.

17. Ilin S.R., Adorska L.G., Radchenko V.K., Posled B.S., Ilina I.S. and  Ilina S.S. (2013), “The Experience Of Dynamic Apparatus Control And Estimation Of Exploitation System Safety “Vessel – Reinforcement” Of Vertical Mining Shafts”, Transportszybowy. InstytutTechnikiGornicej,pp. 163-175.

Abouttheautors

Ilin Serhii Rostyslavovych, Candidate of Technical Sciences (Ph.D.), Senior Researcher, Senior Researcher of the Department of Rock Mechanics, Institute of Geotechnical Mechanics named by N. Poljakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її.

Adorska Larysa Heorhiivna,Candidate of Technical Sciences (Ph.D.), Senior Researcher, Senior Researcher of the Department of Rock Mechanics, Institute of Geotechnical Mechanics named by N. Poljakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її.

Samusіa Volodymyr Illich, Doctor of Technical Sciences (D.Sc.), Head of the Department of Mining Mechanics, National Technical University "Dnipro Polytechnic" of the Ministry of Education and Science of Ukraine, Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її.

Kolosov Dmytro Leonidovych, Doctor of Technical Sciences (D.Sc.), Head of the Department of "Construction, theoretical and applied mechanics", National Technical University "Dnipro Polytechnic" of the Ministry of Education and Science of Ukraine, Dnipro, Ukraine.

Ilina Inna Serhiivna, Candidate of Technical Sciences (Ph.D.), Associate Professor of the Department of Mining Mechanics, National Technical University "Dnipro Polytechnic" of the Ministry of Education and Science of Ukraine, Dnipro, Ukraine. Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її.