Журналы →  Eurasian mining →  2013 →  №2 →  Назад

INDUSTRIAL SAFETY AND PROTECTION OF LABOUR
Название Features of forming microclimatic conditions in mining excavations of deep mines
Автор Karelin V. N, Kravchenko A. V., Levin L. Yu , Kazakov B. P., Zaitsev A. V.
Информация об авторе

Zapolyarnyi (Transpolar) Affiliate of “Norilsk Nickel” Mining and Metallurgical Works” OJSC, Norilsk, Russia:

Karelin V. N., Deputy Director on Mineral and Raw Material Complex, Candidate of Engineering Sciences, e-mail: egorkina@nk.norilsk.ru

Kravchenko A. V., Deputy Head of Mining & Geological Department, e-mail: kav@nk.norilsk.ru

 

Mining Institute of the Ural Branch of the Russian Academy of Sciences, Perm, Russia:

Levin L. Yu., Deputy Director on Science Researches, Doctor of Engineering Sciences, e-mail: aerolog-lev@mail.ru

Kazakov B. P., Head of Laboratory, Doctor of Engineering Sciences, e-mail: aero_kaz@mail.ru

Zaitsev A. V., Junior Scientific Fellow

Реферат

The article focuses on creation of thermal conditions in underground excavations under the current conditions of deeper level mining and the related difficulties of mine microclimate control. The authors analyze thermophysical processes running in mine air and rock mass, as well their influence on air flow parameters in underground excavations.

Work is performed with financial support of the Ural Branch of the Russian Academy of Sciences, the project № 12-5-1-014-ARKTIKA “Development of complex resource-saving system of normalization of microclimatic parameters atmosyer of mines and mines in conditions cryolithozone» and the project № 13-5-NP-354 «Development of model of the nestatsiony interfaced heat exchange between miner air and the pedigree massif in a network of excavations of deep mines».

Ключевые слова Deep-level mines, underground excavations, thermal conditions, heat transfer, heat liberation sources, microclimate, fill mass, modeling-and-calculus software
Библиографический список

1. McPherson M. J. Subsurface ventilation engineering, 2007.
2. Lugovsky S. I. Provetrivanie glubokikh rudnikov (Deep mine ventilation). Moscow: Gosgortekhizdat, 1962, 324 p.
3. Shuvalov Yu. V. Regulirovanie teplovogo rezhima shakht i rudnikov Severa (Thermal control in mines of the North: Resource-saving systems). Leningrad: Leningrad Unive rsity Press, 1988, 196 p.

4. Shcherban A. N., Kremnev O. A. Nauchnye osnovy rascheta i regulirovaniya teplovogo rezhima glubokikh shakht (Scientific bases for calculation and control of thermal environment in deep mines), Kiev: Ukrainian SSR Academy of Sciences Press, 1959, Vol. 1, 430 p.
5. Shcherban A. N., Kremnev O. A. Nauchnye osnovy rascheta i regulirovaniya teplovogo rezhima glubokikh shakht (Scientific bases for calculation and control of thermal environment in deep mines), Kiev: Ukrainian SSR Academy of Sciences Press, 1959, Vol. 2, 347 p.
6. Goncharov S. A., Dmitriev A. P. Termodinamicheskie protsessy v gornykh porodakh (Thermodynamic processes in rocks). Moscow: Nedra, 1990, 330 p.
7. Kazakov B. P., Zaitsev A. V., Shalimov A. V. Vliyanie zakladochnykh rabot na formirovanie teplovogo rezhima v gornykh vyrabotkakh v usloviyakh rudnikov OAO “Norilski Nikel” (Influence of backfilling on thermal conditions of underground excavations in terms of Norilsk Nickel MMC mines), Vestnik Permskogo natsionalnogo issledovatelskogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i gornoe delo — Perm National Research Polytechnic University Bulletin. Geology. Oil&gas production and mining, 2012, No. 2, pp. 110–114.

Полный текст статьи Features of forming microclimatic conditions in mining excavations of deep mines
Назад