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Geotechnical and Geological Engineering
Erschienen in: Geotechnical and Geological Engineering 1/2021

06.08.2020 | Original Paper

Development Range Determination of Gas Conducting Fissure Zones for Lower Protective Seam Mining in JINJIA Coal Mine

verfasst von: Xun Zhao, Tao Feng, Shuqing Li, Weijian Yu, Ping Wang, Ze Liao

Erschienen in: Geotechnical and Geological Engineering | Ausgabe 1/2021

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Abstract

Under the circumstance that lower protective seam mining may give rise to mining-induced fracture development in the upper coal and rock mass, the key to gas extraction during lower protective seam mining is investigated based on mining-induced fracture development law of overlying strata. Fracture evolution processes are seldom described by the traditional “Three Zone” theory of overlying strata. Consequently, its field application in gas extraction during the lower protective seam mining is limited. While theoretical analysis and analog simulation are adopted to analyze mining-induced fracture development rules for the lower protective seam mining, a plastic hinge is selected to theoretically derive a process from internal fracture development to occurrence of rock beam fracturing. In combination with the theory of key strata that the movement of overburden is controlled by key bond strata, a computing method is obtained to figure out development height of a gas conducting fissure zone during the lower protective seam mining. Taking geological conditions in Jinjia Coal Mine as the engineering background, development height of the gas conducting fissure zone in No. 22 seam there is calculated to be 42.2 m. On this basis, engineering design is performed for pressure relief gas extraction of the lower protective seam mining. During working face mining, gas emission quantity and sources are also monitored according to gas conducting features of strata within a range of the gas conducting fissure zone. Hence, accuracy in development range computations for this zone is verified. As demonstrated by research findings, combining the plastic hinge theory with a control action of key strata has the potential to effectively work out development height of the gas conducting fissure zone during the lower protective seam mining. Without a doubt, an accurate theoretical basis can be provided for pressure relief gas extraction in the course of lower protective seam mining.
Vorheriger Artikel A Modified Engineering Classification Method for Schistose Surrounding Rocks of Tunnel
Nächster Artikel Effect of Microwave Irradiation on Computed Tomography and Acoustic Emission Characteristics of Hard Rock

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Literatur
Bai M, Elsworth D (1990) Some aspects of mining under aquifers in China. Min Sci Technol 10(1):81–91CrossRef
Cheng YP, Yu QX, Yuan L et al (2004) Experimental research of safe and high-efficient exploitation of coal and pressure relief gas in long distance. J China Univ Min Technol 33(2):132–136
Dai S, Han B, Liu SL et al (2020) Neural network-based prediction methods for height of water-flowing fractured zone caused by underground coal mining. Arab J Geosci 13(11):537–559
Huang BX, Liu CY, Xu JL (2010) Research on through degree of overlying strata fracture fissure induced by mining. J China Univ Min Technol 39(1):45–49
Kong D, Cheng Z, Zheng S (2019) Study on failure mechanism and stability control measures in large-cutting-height coal mining face with deep-buried seam. Bull Eng Geol Environ 78(8):6143–6157CrossRef
Li SQ, Long ZG, Luo WD et al (2012) Numerical simulation of protection scope when lower-protective layer mined in coal seams. China Saf Sci J 22(6):34–40
Li SQ, Xue XQ, Li SQ et al (2013) Experimental research on strata movement and fracture dynamic evolution of double pressure-relief mining in coal seams group. J China Coal Soc 38(12):2146–2152
Liu Y, Liu QM, Li WP et al (2019) Height of water-conducting fractured zone in coal mining in the soil-rock composite structure overburdens. Environ Geol 78(7):1–13
Lu P, Yuan L, Cheng H et al (2010) Theory and experimental studies of enhanced gas drainage in the high-gas face of low permeability coal multi-seams. J China Coal Soc 35(4):580–585
Ning JG, Wang J, Tan YL et al (2020) Mechanical mechanism of overlying strata breaking and development of fractured zone during close-distance coal seam group mining. Int J Min Sci Technol 30(2):207–215CrossRef
Qian MG, Miao XX, Xu JL (1996) Theoretical study of key stratum in ground control. J China Coal Soc 21(3):225–230
Wang JC, Wu RL, Zhang P (2015) Characteristics and applications of gas desorption with excavation disturbances in coal mining. Int J Coal Sci Technol 2(1):30–37CrossRef
Wu RL (2013) Effect of key stratum on the scope of the three zones of gas pressure relief and migration in coal seam group mining. J China Coal Soc 38(6):924–929
Wu RL, Wang JL, She ZL et al (2017) Effects of mining height on range of three zones of gas pressure relief and migration in overlying strata. J Min Saf Eng 34(6):1223–1231
Xie HP, Gao F, Zhou HW et al (2013) On theoretical and modeling approach to mining-enhanced permeability for simultaneous exploitation of coal and gas. J China Coal Soc 38(7):1101–1108
Xu JL, Qian MG, Jin HW (2004) Study on coal and coal-bed methane simultaneous extraction technique on the basis of strata movement. J China Coal Soc 33(2):129–132
Xu JL, Zhu WB, Wang XZ (2012) New method to predict the height of fractured water-conducting zone by location of key strata. J China Coal Soc 37(5):762–769
Xue DJ, Zhou HW, Kong L et al (2012) Mechanism of unloading-induced permeability increment of protected coal seam under mining. Chin J Geotech Eng 34(10):1910–1916
Yuan L, Guo H, Shen BT et al (2011) Circular overlying zone at longwall panel for efficient methane capture of mutiple coal seams with low permeability. J China Coal Soc 36(3):357–365
Zhang L, Jiang Y (1999) Effect of yield strength on the plastic rotational factor of three-point bend specimen. J Harbin Univ Sci Technol 4(4):105–107
Zhang Y, Cao SG, Guo S et al (2018) Mechanisms of the development of water-conducting fracture zone in overlying strata during shortwall block backfill mining: a case study in Northwestern China. Environ Earth Sci 77(14):1–17CrossRef
Zhao X, Han ZL, Han SQ et al (2013) Mining protection scope determination of low protective seam in contiguous seams. Coal Sci Technol 41(10):53–56CrossRef
Zhu X (1996) The calculating method about the plastic rotational factor of beam during the process of dynamic plastic fracture. Struct Environ Eng 24(4):28–36
Metadaten
Titel
Development Range Determination of Gas Conducting Fissure Zones for Lower Protective Seam Mining in JINJIA Coal Mine
verfasst von
Xun Zhao
Tao Feng
Shuqing Li
Weijian Yu
Ping Wang
Ze Liao
Publikationsdatum
06.08.2020
Verlag
Springer International Publishing
Erschienen in
Geotechnical and Geological Engineering / Ausgabe 1/2021
Print ISSN: 0960-3182
Elektronische ISSN: 1573-1529
DOI
https://doi.org/10.1007/s10706-020-01499-9

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