Krukovskyi O.P., Kurnosov S.A., Bulich Yu.Yu., Opryshko Yu.S., Zemliana Yu.V., Yastrub R.I. Experimental and industrial test of the combined method for gate roadway supporting
- Деталі
- Батьківська категорія: Геотехнічна механіка, 2020
- Категорія: Геотехнічна механіка, 2020, № 150
Geoteh. meh. 2020, 150, 106-115
https://doi.org/10.15407/geotm2020.150.106
EXPERIMENTAL AND INDUSTRIAL TEST OF THE COMBINED METHOD FOR GATE ROADWAY SUPPORTING
1Krukovskyi O.P., 1Kurnosov S.A., 1Bulich Yu.Yu., 1Opryshko Yu.S., 1Zemliana Yu.V., 2Yastrub R.I.
1Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine, 2Mine “Lisova” SE “Lvivvugillia”
UDC 622.268.6
Language: Ukrainian
Annotation.
Technological process of the coal seam mining requires removing of supports installed under the worked-out rocks in the roof, which leading, as a result, to their stratification and asymmetric load on the mine working support, which negatively affects its condition. The IGTM of NAS of Ukraine developed a method for supporting the gate roadways by a concrete packed supporting wall. Among its advantages are profitability, no technological gap between the wall and the roof, water supply directly to the packages with dry cement-mineral mixture. Concrete supporting walls, for all their merits, are more expensive than the wooden ones. Therefore, they are used mainly for mining coal seams with hard-to-caving roofs. If the roof is classified as medium- and easy-to-caving, maximum load on the supporting wall is less. For such conditions, a combined method was developed for supporting the gate roadways. The idea of the method is to alternate sections of packages filled with quick-hardening mineral mixture, and sections of wooden bars stacked in layers. The aim of this research was to conduct experimental and in-filed tests of this combined method for supporting the gate roadways. These tests were carried out during mining the Sokalsky coal seam in the Lesnaya Mine of the Lvivugol Public Company. In order to determine change of compression stresses in the supporting walls, pressure gauges were installed in them. The criterion for assessing the stress state of the wall stacked in layers and packed wall was their relative vertical deformation. The measurements were carried out at different distances from the longwall face and at different stages of concrete hardening. Sections with packed wall and sections with wooden bars with different length and width were tested. As a result, it is established that rational scheme is that in which length of the section is 1.0-1.5 of its width. The experimental and in-field tests of the proposed combined method have shown that its use at mining formations with medium- and easy-to-caving roof allows minimizing an area with inelastic deformations of the massif, significantly reducing economic costs of erecting the supporting walls and improving condition of the mine working support.
Keywords:
longwall-face conjugation, stress-strain state, supporting constructions, concrete packed wall.
References
1. Bondarenko, V., Kovalevska, I., Symanovych, G., Sotskov, V. and Barabash, M. (2018), “Geomechanics of interference between the operation modes of mine working support elements at their loading”, Mining Science, Vol. 25, pp. 219–235.
2. Krukovskyi, O.P. (2015), “Change of stress field around the mine working with different types of support which conservated after wall face driving”, Geo-Technical Mechanics, no. 121, pp. 39-47.
3. Feng, X. and Zhang, N. (2015), “Position-optimization on retained entry and backfilling wall in gob-side entry retaining techniques”,. Int. J. CoalSci. Technol, no. 2, pp. 186–195
https://doi.org/10.1007/s40789-015-0077-y
4. Krukovskyi, O.P., Krukovska, V.V. and Kocherga, V.N. (2015), “Effect of the gate road protection method for stability degasification wells”, Geo-Technical Mechanics, no. 124, pp. 16-31
5. Tan, Y.L.; Yu, F.H.; Ning, J.G. and Zhao, T.B. (2015), “Design and construction of entry retaining wall along a gob side under hard roof stratum”, Int. J. Rock Mech. Min. Sci., no. 77, pp. 115–121
https://doi.org/10.1016/j.ijrmms.2015.03.025
6. Kurnosov, S.A. [and others] (2015), “How the rib-side track rigidity impacts on the gate contour convergence and enclosing rock state”, Geo-Technical Mechanics, no. 121, pp. 160-171.
7. Bulat, A.F. [and others] (2009), Tekhnolohichnyi rehlament pidtrymky povtorno vykorystovuvanykh vyimkovykh shtrekiv kombinovanymy okhoronnymy systemamy [Technological regulations for maintaining and reusing mine workings by combined supporting systems], Dnipropetrovsk, Ukraine.
8. Bulat, A.F., Kurnosov, S.A., Smirnov, A.V., Voziianov, V.S., Tsykra, A.A., Zaderii, V.V. and Avierkin D.I. Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (2014), Sposib okhorony pidhotovchoi vyrobky [The method of maintaining of mine working], State Register of Patents of Ukraine, Kiev, UA, Pat. № 92305.
9. Ukraine Ministry of Coal Industry (2012), 10.1-00185790-020:2012 Upravlinnia pokrivleiu i kriplennia v ochysnykh vyboiakh na vuhilnykh plastakh z kutom padinnia do 350. Kerivnytstvo [СОУ-П 10.1-00185790-020:2012 Roof management and fastening in treatment faces on coal seams with an angle of incidence up to 35. Manual], Ukraine Ministry of Coal Industry, Kiev, Ukraine.
10. Vremennaya instruktsiya po ohrane vyiemochnyih vyirabotok polosami iz tverdeyuschih materialov [Temporal instruction on the protection of the extraction workings with bars from hardening materials](1981), IMW named by. A.A. Skochynskyi, Moscow, SU.
11. Rozrobka naukovo-tekhnichnykh rekomendatsii shchodo parametriv sporudzhennia paketovanoi okhoronno-izoliuiuchoi smuhy uzdovzh konveiernoho shtreku № 166 pry vidpratsiuvanni plasta n7n «Sokalskyi» v umovakh shakhty «Lisova» ta zdiisnennia monitorynhu stanu shtreku: Zvit pro NDR [Development of scientific and technical recommendations in relation to the parameters of building of packing protectively-insulating bar along a belt entry № 166 at working off the n7н «Sokalsky seam» in the conditions of mine «Lisova» and realization of monitoring of the condition of drift. Report about research work](2018), Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine, Dnipro, Ukraine.
12. Krukovskyi, O.P., Kurnosov, S.A., Krukovska V.V. [and others] (2016), “Determination of rational parametres for the rock-bolting and protective structures in the face end”, Suchasni tekhnolohii v mashynobuduvanni, transporti ta hirnytstvi: Visnyk KrNU im. Mykhaila Ostrohradskoho, no. 4(99). pp. 54-60
About the authors
Krukovskyi Oleksandr Petrovych, Corresponding Member of NAS of Ukraine, Doctor of Technical Sciences (D. Sc), Deputy Director of the institute, Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її. .
Kurnosov Serhii Anatoliiovych, Doctor of Technical Sciences (D. Sc), Senior Researcher, Senior Researcher in Department of Mineral Mining at Great Depths, Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її. .
Bulich Yurii Yuriiovych, Master of Science, Researcher of Department of Rock Mechanics Department, Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine.
Opryshko Yurii Serhiiovych, Master of Science, Chief Technologist in the Department of Mineral Mining at Great Depths, Institute of Geotechnical Mechanics named by N. Poliakov of National Academy of Sciences of Ukraine (IGTM, NAS of Ukraine), Dnipro, Ukraine, Ця електронна адреса захищена від спам-ботів. вам потрібно увімкнути JavaScript, щоб побачити її. .
Zemliana Yuliia Valeriivna, Master of Science, Chief technologist in Department of Rock Mechanics Department, M.S. Poliakov Institute of Geotechnical Mechanics NAS of Ukraine (IGTM, NAS of Ukraine), Dnepr, Ukraine.
Yastrub Ruslan Ihorovych, Master of Science, Chief of shift for the production of mine «Lisova», SE «Lvivvugillia», Chervonograd, Ukraine.