References
Alexeev AD, Revva VN, Alyshev NA, Zhitlyonok DM (2004) True triaxial loading apparatus and its application to coal outburst prediction. Int J Coal Geol 58:245–250
Barla G, Bonini M, Semeraro M (2011) Analysis of the behaviour of a yield-control support system in squeezing rock. Tunn Undergr Space Technol 26:146–154
Dutka B, Kudasik M, Pokryszka Z (2013) Balance of CO2/CH4 exchange sorption in a coal briquette. Fuel Process Technol 106(2):95–101
Geng JB, Xu J, Nie W, Peng SJ, Zhang CL, Luo XH (2017) Regression analysis of major parameters affecting the intensity of coal and gas outbursts in laboratory. Int J Min Sci Technol 27(2):327–332
Jasinge D, Ranjith PG, Choi SK (2011) Effects of effective stress changes on permeability of Latrobe Valley brown coal. Fuel 90(3):1292–1300
Jessen K, Tang GQ, Kovscek AR (2008) Laboratory and simulation investigation of enhanced coalbed methane recovery by gas injection. Transp Porous Med 73(2):141–159
Jiang CL, Xu LH, Li XW, Tang J, Chen YJ, Tian SX, Liu HH (2015) Identification model and indicator of outburst-prone coal seams. Rock Mech Rock Eng 48(1):409–415
Jin HW, Hu QT, Liang YP (2009) Coal damage mechanism in the developing process of coal and gas outburst. J Coal Sci Eng (China) 15:138–142
Jin K, Cheng YP, Ren T, Zhao W, Tu QY, Dong J, Wang ZY, Hu B (2018) Experimental investigation on the formation and transport mechanism of outburst coal-gas flow: implications for the role of gas desorption in the development stage of outburst. Int J Coal Geol 194:45–58
Karacan C, Ruiz FA, Cotè M, Phipps S (2011) Coal mine methane: a review of capture and utilization practices with benefits to mining safety and to greenhouse gas reduction. Int J Coal Geol 86(2):121–156
Li MH, Yin GZ, Xu J, Li WP, Song ZL, Jiang CB (2016) A novel true triaxial apparatus to study the geomechanical and fluid flow aspects of energy exploitations in geological formations. Rock Mech Rock Eng 49(12):4647–4659
Li H, Lin BQ, Hong YD, Gao YB, Yang W, Liu T, Wang R, Huang ZB (2017) Effects of in situ stress on the stability of a roadway excavated through a coal seam. Int J Min Sci Technol 27(6):917–927
Liu T, Lin BQ, Yang W, Zou QL, Kong J, Yan FZ (2016) Cracking process and stress field evolution in specimen containing combined flaw under uniaxial compression. Rock Mech Rock Eng 49(8):3095–3113
Peng SJ, Xu J, Yang HW, Liu D (2012) Experimental study on the influence mechanism of gas seepage on coal and gas outburst disaster. Saf Sci 50:816–821
Ranjith PG, Perera MSA (2011) A new triaxial apparatus to study the mechanical and fluid flow aspects of carbon dioxide sequestration in geological formations. Fuel 90:2751–2759
Sobczyk J (2014) A comparison of the influence of adsorbed gases on gas stresses leading to coal and gas outburst. Fuel 115(2):288–294
Tu QY, Cheng YP, Guo PK, Jiang JY, Wang L, Zhang R (2016) Experimental study of coal and gas outbursts related to gas-enriched areas. Rock Mech Rock Eng 49(9):3769–3781
Wang HP, Zhang QH, Yuan L, Xue JH, Li QC, Zhou W, Li JM, Zhang B (2015) Development of a similar material for methane-bearing coal and its application to outburst experiment. Rock Soil Mech 36(6):1676–1683
Xie HP, Xie J, Gao MZ, Zhang R, Zhou HW, Gao F, Zhang ZT (2015) Theoretical and experimental validation of mining-enhanced permeability for simultaneous exploitation of coal and gas. Environ Earth Sci 73:5951–5962
Xu JZ, Zhai C, Liu SM, Qin L, Sun Y (2017) Feasibility investigation of cryogenic effect from liquid carbon dioxide multi cycle fracturing technology in coalbed methane recovery. Fuel 206:371–380
Yin GZ, Jiang CB, Wang JG, Xu J, Zhang DM, Huang G (2016) A new experimental apparatus for coal and gas outburst simulation. Rock Mech Rock Eng 49(12):2005–2013
Zhao W, Cheng YP, Guo PK, Jin K, Tu QY, Wang HF (2017) An analysis of the gas–solid plug flow formation: new insights into the coal failure process during coal and gas outbursts. Powder Technol 305:39–47
Acknowledgements
This work was supported by the National Science and Technology Major Project (no. 2016ZX05044-002), the National Natural Science Foundation of China (no. 51434003), the Basic and Frontier Research Projects of Chongqing (no. cstc2016jcyjA0117) and the Fundamental Research Funds for the Central Universities (no. 106112017CDJQJ248825). The authors thank AJE for providing English language editing.
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Zhang, C., Xu, J., Yin, G. et al. A Novel Large-Scale Multifunctional Apparatus to Study the Disaster Dynamics and Gas Flow Mechanism in Coal Mines. Rock Mech Rock Eng 52, 2889–2898 (2019). https://doi.org/10.1007/s00603-018-1610-2
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DOI: https://doi.org/10.1007/s00603-018-1610-2