Журналы →  Eurasian mining →  2017 →  №1 →  Назад

DEVELOPMENT OF DEPOSITS
Название Justification of borehole hydraulic mining from thawed placers
DOI 10.17580/em.2017.01.05
Автор Bagazeev V. K., Valiev N. G., Startsev V. A.
Информация об авторе

Ural State Mining University, Ekaterinburg, Russia:

Bagazeev V. K., Professor, Doctor of Engineering Sciences
Valiev N. G., Professor, First Pro-Rector
Startsev V. A., Assistant, Vasiliy.Startsev@m.ursmu.ru

Реферат

The article is representing mining method of thawed argillaceous placer mines by hydraulic drilling mining is. Analysis of hydraulic borehole mining shows that in the formation of the wide area, dumps, roof dislocations and dips of overlying rocks occur. The rocks are set in motion because of the disturbance of the equilibrium state. The ability of rocks to maintain balance when creating outcrops determines their stability. The establishment of the parameters of the extraction blocks with saving the dome of natural equilibrium will allow to overcome the deformations described above. A key principle in the justification of the mining method is the stability of rock outcrops. As a basic mining method of hydraulic drilling mining of thawed placer mines, the single-stall method is considered. Evaluation of the stability parameters of the roof have been carried out, the value of the dome of natural equilibrium has been determined by the calculation method, experimentally, the size of the limiting span has been established. The limiting span - is a span before the collapse of the roof, the main parameter determining the dimensions of the stall. Measurements and observations were carried out on physical models, in production conditions on the "Uvalnoe" and "Visim" mining districts of the artel "Neiva". The comparison of theoretical calculations and experimental data is based on the strength characteristics of argillaceous rocks obtained under laboratory conditions using the generally accepted technique of resistance of a weakly cemented rock to shear and a technique for estimating the strength and compressibility of coarse clastic rocks by DalNIIS. Comparing the results of the research, it is established that the method of Borisenko A. A. is the most suitable for determining the dome of natural equilibrium. The forms and dimensions of the mining stalls are justified, the parameters of which are limited by the dimensions and strength characteristics of the sands and host rocks of placers.

Ключевые слова Mining method, hydraulic borehole mining, stability, roof exposure, strength parameters, argillaceous rocks, placer deposits
Библиографический список

1. Li R. F., Wen G. C., Si H. Technology Test about CBM Extraction from Mining Subsidence Zones Using Surface Borehole in Thick Coal-Bed Mines. Advanced Materials Research. Trans Tech Publications. 2012. Vol. 524. pp. 758–764. (limited access)
2. Zeng C., Zhou P. Evaluation on Borehole Stability of Ru River HDD Crossing. ICPTT 2013: Trenchless Technology. 2013. pp. 1151–1160. (limited access)
3. Khrulev A. S. The characteristics of borehole mining of gold-containing sand from deep-lying gravel. Gornyy informatsionno-analiticheskiy byulleten. 2001. No. 9.
4. Bagazeev V. K., Valiev N. G., Simisinov D. I. Physicomechanical substantiation of rock mass jetting in hydraulic borehole mining of placers. Gornyi Zhurnal. 2015. No. 12. pp. 25–27. DOI: 10.17580/gzh.2015.12.05
5. Handbook on placer mining. Berezin V. P., Leshkov V. G., Matsuev L. P., Potemkin S. V. Moscow : Nedra. 1973. 592 p.
6. Gaydin A. M. Research on optimal technologies for borehole mining of ores in different mining-geological conditions. Gornyi Zhurnal. 2009. No. 2. pp. 28–31.
7. Banerjee G. et al. Assessment of cavability and categorization of coal measure roof rocks by parting plane approach. 2016. (free access)
8. Portsevskiy A. K., Katkov G. A. Physical basics of rock formations, geomechanics and management of the rock massif’s state. Moscow : Moskovskiy gosudarstvennyy otkrytyy universitet, 2004. 120 p.
9. Mining encyclopedia. 1986.Vol. 2. p. 97.
10. Oryngozhin E. S. Geotechnological methods for mining of gold in a buried placer deposit. Almaty : NTs NTI. 2012. p. 250.
11. Cherney E. I., Babichev N. I., Sysoev V. N. et al. Modelling of washout processes for gold-containing sand in the case of borehole hydromining. Kolyma. 1975. No. 3. pp. 7–9.
12. Kumar D., Das S. K. An experimental study of the parameters influencing ultimate bearing strength of weak floor strata using physical modeling. Geotechnical and Geological engineering. 2005. Vol. 23, No. 1. pp. 1–15. (limited access)
13. Valiev N. G., Bagazeev V. K. Calculating the parameters of sewage extraction wells at hydraulic wells mining. Izvestiya vuzov. Gornyy zhurnal. 2012. No. 1. pp. 13–16.
14. Shchedrina N. N. Determining the parameters of displacement processes for mineral deposits “With unresearched or insufficiently researched properties of a displacement process”. Gornyy informatsionno-analiticheskiy byulleten. 2011. No. 7. pp. 119–123.
15. Wang Y., Watson R., Rostami J., Wang J. Y., Limbruner M., He Zh. Study of borehole stability of Marcellus shale wells in longwall mining areas. J Petrol Explor Prod Technol. 2014. Vol. 4. pp. 59–71.
16. Sammal A. S. et al. Estimate of rock mass stability in surface-borehole mining of high-grade iron ore. Fundamentalnye i prikladnye voprosy gornykh nauk. 2016. Vol. 1, No. 3. pp. 176–179.
17. Iofis M. A., Esina E. N. The features of calculation movements and deformations of the surface borehole at borehole to hydromining operations. Vestnik Rossiyskogo universiteta druzhby narodov. Seriya: Inzhenernye issledovaniya. 2012. No. 3.

Полный текст статьи Justification of borehole hydraulic mining from thawed placers
Назад