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N. M. Kachurin
N. M. Kachurin
Tula State University
Tula State University
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Mining
  • Date submitted
    2020-06-12
  • Date accepted
    2020-06-12
  • Date published
    2020-06-30

Management of hardening mixtures properties when stowing mining sites of ore deposits

Underground mining is characterized by the weakening of the bearing rock mass strata competence and the accumulation of mineral waste. The full use of subsurface resources is ensured by the use of technologies with filling voids by hardening mixtures, which requires high-quality raw materials to obtain the required strength. The deficit of the binding component can be filled with the use of granulated slags of blast-furnace process, mill tailings, ash-slags and other wastes. Most often, voids are laid by mixtures with a combination of cement and a binding component. Mixtures with ash-slag additives to cement in an equivalent amount are not inferior to the strength of the mixture only with cement, especially when grinding ash-slag. The properties of stowing rock masses when using composite binding components and inert fillers are controlled by mechanical, chemical, physical and energy effects at the stages of preparation and transportation of hardening mixtures. To obtain the active fraction of cement substitutes, disintegrators are used that apply the inertia forces of materials at a high speed of rotation with an increase in high activity indicators and lower energy costs. The components of hardening mixtures can be the majority of waste from mining and related industries, which is determined experimentally in specific conditions.

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Vladimir I. Golik, Yury V. Dmitrak, Vitaly I. Komashchenko, Nikolay M. Kachurin (2020) Management of hardening mixtures properties when stowing mining sites of ore deposits. Journal of Mining Institute. Vol 243. p. 285. DOI: 10.31897/pmi.2020.3.285
Geoecology and occupational health and safety
  • Date submitted
    2017-03-01
  • Date published
    2017-02-26

Mathematical models of gas-dynamic and thermophysical processes in underground coal mining at different stages of mine development

New trends have been traced and the existing ones refined regarding filtration and diffusive motion of gases in coal beds and surrounding rock, spontaneous heating of coal and transport of gas traces by ventilation currents in operating coal mines. Mathematical models of gas-dynamic and thermophysical processes inside underworked territories after mine abandonment have been justified. Mathematical models are given for feasible air feeding of production and development areas, as well as for the development of geotechnical solutions to ensure gas-dynamic safety at every stage of coal mine operation. It is demonstrated that the use of high-performance equipment in the production and development areas requires more precise filtration equations used when assessing coal mine methane hazard. A mathematical model of pressure field of non-associated methane in the edge area of the coal seam has been justified. The model is based on one-dimensional hyperbolic equation and takes into consideration final rate of pressure distribution in the seam. Trends in gas exchange between mined-out spaces of high methane- and CO 2 -concentration mines with the earth surface have been refined in order to ensure environmental safety of underworked territories. 

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M. V. Gryazev, N. M. Kachurin, S. A. Vorob'ev (2017) Mathematical models of gas-dynamic and thermophysical processes in underground coal mining at different stages of mine development. Journal of Mining Institute. Vol 223. p. 99. DOI: 10.18454/pmi.2017.1.99