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PHYSICS OF ROCKS AND PROCESSES
Название Technology of dynamic monitoring of stresses and strains in rocks under mining
DOI 10.17580/gzh.2015.08.10
Автор Eremenko V. A., Esina E. N., Semenyakin E. N.
Информация об авторе

Author 1:
Name & Surname: Eremenko V. A.
Company: Research Institute of Comprehensive Exploitation of Mineral Resources—IPKON RAS (Moscow, Russia)
Work Position: Principal Researcher
Scientific Degree: Doctor of Engineering Sciences
Contacts: eremenko@ngs.ru


Author 2:
Name & Surname: Esina E. N.
Company: Research Institute of Comprehensive Exploitation of Mineral Resources—IPKON RAS (Moscow, Russia)
Work Position: Senior Researcher
Scientific Degree: Candidate of Engineering Sciences


Author 3:
Name & Surname: Semenyakin E. N.
Company: Research Institute of Comprehensive Exploitation of Mineral Resources—IPKON RAS (Moscow, Russia)
Work Position: Graduate student

Реферат

In terms of complex geological and geomechanical conditions of rockburst-hazardous underground mining at Tashtagol, Abakan and other comparable deposits, the authors have carried out a full-scale trial and now present the technology for the dynamic monitoring of stresses and strains over local areas to 50 thousand square meters in rocks under development drivage or in the zone of influence of stoping. The dynamic monitoring enables short-term (up to 7 days) estimation of basic geomechanical parameters in rocks under control: orientation and value range of major principal normal stresses; relative strains; location of damaged rock zones (DRZ)—fracturing, shearing, compression; sizes and dynamics of cracks; zone of mutual influence of stope and mined-out void; mechanisms of failure and rock relaxation time; location of energy concentration zone. The authors describe and instantiate special equipment, devices and facilities, technologies and methods to measure deformation parameters in deep observation holes, as well as procedure for the obtained data processing, mapping of sized cracks and DRZ, their calibration, modeling and plotting, which allows reliable forecasting of DRZ parameters and dynamics at mine planning stage and enables implementation of measures aimed at industrial and ecological safety of mineral mining. Recommendations on field of application of the dynamic SSS monitoring technology are given.
The work has been done in the framework of the state contract of the Russian scientific fund (the grant No. 14-37-00050).
V. A. Shtirts and O. V. Shipeev, the head and the deputy head of PPGU department, as wekk as I. N. Eremenko have participated in conduction of the experiments at Tashtagolskiy mine. The results of hole contouring at Golden Grove mine in Western Australia have been presented by V. N. Lushnikov, the leading mining engineer of Australian Mining Consultants Pty Ltd.

Ключевые слова Rockburst-hazardous deposits, underground mining, rock mass stress–strain state, dynamic monitoring, control holes, cracks, strains, measurements, modeling, damaged rock zone mapping, forecasting
Библиографический список

1. Trubetskoy K. N., Kaplunov D. R., Rylnikova M. V. Et al. Uslovija ustojchivogo funkcionirovanija mineral'no-syr'evogo kompleksa Rossii. Vypusk 2 (Sustainable performance conditions for mineral mining and processing in Russia. Issue 2). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Informational-Analytical Bulletin. 2015. No. 2. pp. 318–319.
2. Federalnye normy i pravila v oblasti promyshlennoy bezopasnosti «Pravila bezopasnosti pri vedenii gornykh rabot i pererabotke tverdykh poleznykh iskopaemykh» (Federal performance requirements in industrial safety area “Rules of safety during mining operations and processing of solid minerals”). Moscow : JSC “Scientific-Technical Center of Researches of Industrial Safety Problems”, 2014. 276 p. (in Russian)
3. Barton N. Application of Q-System and Index Tests to Estimate Shear Strength and Deformability of Rock Masses. Workshop on Norwegian Method of Tunneling. NewDelhi, 1993. pp. 66–84.
4. Laubscher D. H. A geomechanics classification system for the rating of rock mass in mine design, Trans. S. Afr. Inst. Min. Metal., 9(10), 1990.
5. Ukazaniya po bezopasnomu vedeniyu gornykh rabot na mestorozhdeniyakh Gornoyi Shorii, sklonnykh i opasnykh po gornym udaram / IGD SO RAN, OAO «Evrazruda» (Instructions for safe rockburst-hazardous mining in Gornaya Shoria. Institute of Mining SB RAS, EVRAZRUDA JSC). Novosibirsk–Novokuznetsk, 2015. 60 p. (in Russian)
6. Vnutriskvazhinnyj sposob opredeleniya zon povrezhdeniya gornykh porod (Downhole method for damaged rock detection). Patent RF, No. 2015111530. Applied: 31.03.2015.
7. Vnutriskvazhinnyi sposob opredeleniya napravleniya deystviya i znacheniy glavnykh napryazheniy (Downhole method for determination of orientation and values of principal stresses). Patent RF, No. 2014148605. Applied: 02.04.2015.
8. Canny J. A computational approach to edge detection, IEEE Trans. PAMI, 1986, Vol. 8, pp. 34–43.
9. Sposob izmereniya treshhikn v skvazhinakh (Methods for crack sizing in boreholes). Patent RF, No. 2014149121. Applied: 15.04.2015.
10. Sposob otsenki strukturno narushennykh i udaroopasnykh massivov gornykh porod (Assessment method for structurally damaged and rockburst-hazardous rock masses). Patent RF, No. 2014148102. Applied: 29.11.2014.
11. Louchnikov V. N., Sandy M. P., Eremenko V. A., Kovalenko A. A., Ivanov I. A. Procedure for damaged rock zone sizing around underground excavations and stopes using numerical modeling, Mining Journal, 2013, No. 12, pp. 11–16.
12. Eremenko V. A., Louchnikov V. N., Sandy M. P., Shelukhin I. S. Metodika opredeleniya zony rasprostraneniya povrezhdeniya porodnogo massiva vokrug gornykh vyrabotok i kamer s pomoshchyu chislennogo modelirovaniya (Evaluation of roof conditions in room-and-pillar mining in permafrost). Gornyi zhurnal = Mining Journal. 2015. No. 3. pp. 24–32.
13. Eremenko V. A. Gipsovo-skvazhinnaya stanciya kontrolya napryazhenno-deformirovannogo sostoyaniya strukturno narushennogo i udaroopasnogo massiva gornykh porod Abakanskogo mestorozhdeniya (Gypsum-borehole observation plant to monitor stresses and strains in damaged and rockburst-hazardous rock mass of the Abakan deposit). Gornyy Informatsionno-Analiticheskiy Byulleten = Mining Informational-Analytical Bulletin. 2015. No. 3. pp. 5–13.

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