Zberovskyi V. V., Ahaiev R. А., Sofiiskyi K.K., Dehlin B.М., Yukhymenko V.А. Labor safety and control of the working area state in the penals while mining steep coal seams by shield aggregates

Details
Parent Category: Geo-Technical Mechanics, 2020
Category: Geo-Technical Mechanics, 2020, № 152

Geoteh. meh. 2020, 152, 47-64

https://doi.org/10.15407/geotm2020.152.047

LABOR SAFETY AND CONTROL OF THE WORKING AREA STATE IN THE PENALS WHILE MINING STEEP COAL SEAMS BY SHIELD AGGREGATES

1ZberovskyiV. V., 1Ahaiev R. А., 1SofiiskyiK.K., 2DehlinB.М., 3YukhymenkoV.А.

1Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine, 2State Enterprise "Scientific and Technical Center"Coal Innovation", 3State Enterprise «Toretskvyhillia»

УДК 622.454.3

Language: Ukrainian

Annotation.

In this article, circumstances and factors which can lead to a degraded labour protection and occurrence of emergency in a district are reviewed and analyzed on the example  of an accident occurred at sudden coal-and-gas outburst in the panel face № 42-1146 m of the Tovstyi-Zakhid seam m3 in the Central Mine of the Toretsvukhillia Mining Company. In this article, state of equipment and its location in the district in accordance with the requirements of the safety rules, records of devices which monitor gas-dynamic state of the coal seam and operation of the shield aggregate are considered. Mining and geological conditions of the seam bedding and technological conditions of the district location within the working horizon; methane content in the air of the roadways in the district; change of coal physical and mechanical properties in the area of possible geological disturbance; results of control of the coal seam gas-dynamic state analyzed by acoustic emission parameters; and other risk factors that led to emergencies were studied. The decisions made for controlling possible area with geological disturbance impact which was detected in the horizons of 916 m and 1026 m on the basis of mining-graphic materials and data of geological study in the mining roadways adjacent to the panel No. 14 in the district 42-1146 m were analyzed. The order and sequence of the works established for eliminating consequences of the coal and gas sudden outburst and detecting zone with disturbed coal and outburst cavity were considered. On the basis of the results obtained, conclusions were made and actions were elaborated on preventing accidents at mining steep prone-to-outburst coal seams by the shield aggregates. It is recommended to continue the scientific research for the purpose of detecting zone with possible impact of discontinuous geological disturbance and plicate disturbed zones in the coal seams by the changed hardness of coal in the adjacent panel, and developing certain local measures on preventing gas-dynamic phenomena at mining steep prone-to-outburst seams by the shield aggregates. The objective of this work was to analyze state of the working area and labor protection and to study the conditions and factors which had led to the accident with serious consequences and emergency condition of the panel.

Keywords:

coal and gas outburst, shield aggregate, causes and consequences of accident, coal hardness, gas control equipment, acoustic emission pulses

references

1. The Ministry of Coal Industry of Ukraine (2005), SOU 10.1.001740088-2005. Pravyla vedennia girnychykh robit na plastakh, skhylnykh do gazodynamichnykh javysch [SOU 10.1.001740088-2005. Rules mining operations at the seams prone to gas-dynamic phenomena], Kyiv, Ukraine.

2. Ministry of Coal Industry of Ukraine (2010), NPAOP 10.0-1.01-10 Pravyla bezpeky u vugilnykh shakhtakh [NLASL 10.0-1.01-10 Rules of safety in coal mines], Osnova, Kiev, UA.

3. The Ministry of Coal Industry of Ukraine (2004), DNAOP10.0-5.01-04. Instruktsiia zi skladannia planiv likvidatsii avarii. Do p. 1.1.12 Pravyl bezpeky u vuhilnykh shakhtakh.  [ DNAOP 10.0-5.01-04. Manual for preparation of emergency response plans], Kyiv, Ukraine.

4. The Ministry of coal industry of the USSR (1991). Tymchasove kerivnytstvo po obladnannyu ta ekspluatatsii system aerohazovoho kontrolyu u vuhilnykh shakhtakh. [Interim guidance on the equipment and operation of aerogas control systems in coal mines ], Kyiv, SU.

5. The Ministry of fuel and energy of Ukraine (2001), 12.06.204–99. HeolohichnirobotynavuhlevydobuvnykhpidpryiemstvakhUkrainy. Konstruktorska dokumentatsiia [12.06.204–99. Geological work in the coal-mining enterprises of Ukraine. Design documentation], The Ministry of fuel and energy of Ukraine, Kyiv, Ukraine.

6. Bulat, A. F., Yashchenko, I. A. and Baranov, V. A.(2017), “Influence of conditions of formation of coal deposits and geological conditions on safety in mines”, Coal of Ukraine, 2017, no.  11-12. Pp. 30-38.

7. Bulat, A. F., Yashchenko, I. A. and Baranov, V. A.(2018), “The Influence of disturbed zones on the safety of work in coal industry of Ukraine”, Coal Ukraine, 2018, no.  4-5. Pp. 11-23.

8. Malyshev, Yu. N., Troubetzkoy, K. N. and Airuni, A. T. (2000), Fundamentalno prykladni metody vyrishennia problemy metanu vuhilnykh plastiv [Fundamentally applied methods of solving the problem of coalbed methane], Academy of mining Sciences, Moscow, RU.

9. Minieiev, S. P., Prusova, A.A. and Kornilov, N.G. (2007), AktyvatsiIa desorbtsii metanu v vuhilnykh plastakh [Activation of methane desorption in coal seams], Weber, Dnipropetrovsk, Ukraine.

10. Sobolev, V.V., ashov, A.S., Zberovskyi, V.V., Anhelovskyi, A.A. and Chuhunkov, I.F (2013), Systema vuhillia-haz v vuhlevodniakh vuhilnoho henezysu[The system coal-gas in the hydrocarbons of the coal Genesis], Art-Press, Dnipropetrovsk, , Ukraine.

11. Shapoval, N. A. (1997), Kruti i krutopokhyli vuhilni plasty. Upravlinnia hirskym tyskom i kriplennia v ochysnykh i pidhotovchykh vyrobkakh na velykykh hlybynakh [Steep and steeply inclined coal seams. Management of mountain pressure and mount in clearing and preparatory mine workings at great depths], Gorlovskaya printing house, Gorlovka, Ukraine.

Abouttheauthors

ZberovskyiVasylVladyslavovych, Doctor of Тechnical Sciences (D. Sc.), Senior Researcher in Department of Rock Breaking Problems, M.S. Polyakov Institute of Geotechnical Mechanics under the National Academy of Science of Ukraine (IGTM, NAS of Ukraine), Dnіprо, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Ahaiev Ruslan Agaguluievych, Candidate of Technical Sciences (Ph.D.), Senior Researcher in Department of Underground Coal Mining Technology, Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Sofiiskyi Kostiantyn Kostiantynovych, Doctor of Technical Sciences (D. Sc.), Professor, Head of the Department of Underground Coal Mining, Institute of Geotechnical Mechanics named by N. akov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, This email address is being protected from spambots. You need JavaScript enabled to view it.

Deglin Borys Moiseevych, Candidate of Technical Sciences (Ph.D.), State Enterprise "Scientific and Technical Center "Coal Innovation", Kyiv, Ukraine

Yukhymenko Volodymyr Anatoliiovych, Master of Science, General Director, State Enterprise "Toretskvuhillya", Toretsk, Ukraine