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Experimental study on fracturing coal seams using CaO demolition materials to improve permeability

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Currently, methane gas disasters in underground coal mines are a major problem which seriously threatens safe mining. This study employed soundless chemical demolition for fracturing coal seams with low permeability. Additionally, the fracturing theory and failure mechanisms of soundless chemical demolition agents were investigated. Materials such as CaO, naphthalene-based water reducer, sodium gluconate and silicate cement were used to prepare the novel soundless chemical demolition agent, whose optimum proportion was discovered to be 90:3:5:7 by carrying out orthogonal experiments. The innovative demolition agent cracked briquettes and the maximum width of cracks reached 16.33 mm, showing significant potential for improving the permeability of coal seams.
Rocznik
Strony
47--54
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
autor
  • State Key Laboratory of Deep Coal Mining and Environment Protection, Huainan 232000, China
  • College of Mining Technology, Taiyuan University of Technology, Taiyuan 030024, China
autor
  • State Key Laboratory of Deep Coal Mining and Environment Protection, Huainan 232000, China
autor
  • State Key Laboratory of Deep Coal Mining and Environment Protection, Huainan 232000, China
autor
  • State Key Laboratory of Deep Coal Mining and Environment Protection, Huainan 232000, China
Bibliografia
  • 1. Aguado, M. B. D., & Nicieza, C. G. (2007). Control and prevention of gas outbursts in coal mines, Riosa-Olloniego coalfield, Spain. International Journal of Coal Geology, 69(4), 253-266.
  • 2. An, F. H., Cheng, Y. P., Wang, L., & Li, W. (2013). A numerical model for outburst including the effect of adsorbed gas on coal deformation and mechanical properties. Computers and Geotechnics, 54, 222-231.
  • 3. An, H., Wei, X. R., Wang, G. X., Massarotto, P., Wang, F. Y., Rudolph, V., et al. (2015). Modeling anisotropic permeability of coal and its effects on CO2 sequestration and enhanced coalbed methane recovery. International Journal of Coal Geology, 152(Part B), 15-24.
  • 4. Fukui, H., & Nagaishi, T. (2001). Static demolition by calcium oxide (IV): Thermal decomposition of calcium carbonate. Journal of the Japan Explosives Society, 62(1), 39-47.
  • 5. Gambatese, J. A. (2003). Controlled concrete demolition using expansive cracking agents. Journal of Construction Engineering and Management, 129(1), 98-104.
  • 6. Gao, Y., Fu, G., & Nieto, A. (2016). A comparative study of gas explosion occurrences and causes in China and the United States. International Journal of Mining, Reclamation and Environment, 30(4), 269-278.
  • 7. Germanovich, L. N., Astakhov, D. K., Mayerhofer, M. J., Shlyapobersky, J., & Ring, L. M. (1997). Hydraulic fracture with multiple segments I. Observations and model formulation. International Journal of Rock Mechanics and Mining Sciences, 34(3-4), 472.
  • 8. Hinze, J., & Nelson, A. (1996). Enhancing performance of soundless chemical demolition agents. Journal of Construction Engineering and Management, 122(2), 193-195.
  • 9. Jiang, B. Y., Lin, B. Q., Shi, S. L., Zhu, C. J., & Li, Z.W. (2011). Theoretical analysis on the attenuation characteristics of strong shock wave of gas explosion. Procedia Engineering, 24, 422-425.
  • 10. Karacan, C.Ő., Ruiz, F. A., 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. International Journal of Coal Geology, 86(2), 121-156.
  • 11. Lin, B. Q., Jiang, B. Y., Zhu, C. J., Zhai, C., Liu, Q., & Ye, Q. (2013). Influence of initial spherical flame radius on the explosion-proof safety distance, the flameproof distance, and the propagation characteristics of gas deflagrations. Research Journal of Chemistry and Environment, 17, 143-150.
  • 12. Lin, B., Yan, F., Zhu, C., Zhou, Y., Zou, Q., Guo, C., et al. (2015). Cross-borehole hydraulic slotting technique for preventing and controlling coal and gas outbursts during coal roadway excavation. Journal of Natural Gas Science and Engineering, 26, 518-525.
  • 13. Natanzi, A. S., & Laefer, D. F. (2015). Using chemicals as demolition agents near historic structures. Paper presented at the 9th international conference on structural analysis of historical constructions. Mexico City, Mexico, 14-17 October, 2014.
  • 14. Song, D., Liu, Z., Wang, E., Qiu, L., Gao, Q., & Xu, Z. (2015). Evaluation of coal seam hydraulic fracturing using the direct current method. International Journal of Rock Mechanics and Mining Sciences, 78, 230-239.
  • 15. Tang, Y. (2015). Methane drainage optimization by roof-borehole based on physical simulation. Arabian Journal of Geosciences, 8(10), 7879-7886.
  • 16. Toraño, J., Torno, S., Alvarez, E., & Riesgo, P. (2012). Application of outburst risk indices in the underground coal mines by sublevel caving. International Journal of Rock Mechanics and Mining Sciences, 50, 94-101.
  • 17. Wang, L., Cheng, Y. P., Ge, C. G., Chen, J. X., Li, W., Zhou, H. X., et al. (2013). Safety technologies for the excavation of coal and gas outburst-prone coal seams in deep shafts. International Journal of Rock Mechanics and Mining Sciences, 57, 24-33.
  • 18. Xue, Y., Gao, F., Gao, Y., Cheng, H., Liu, Y., Hou, P., et al. (2016). Quantitative evaluation of stress-relief and permeability-increasing effects of overlying coal seams for coal mine methane drainage in Wulan coal mine. Journal of Natural Gas Science and Engineering, 32, 122-137.
  • 19. Xue, S., & Yuan, L. (2017). The use of coal cuttings from underground boreholes to determine gas content of coal with direct desorption method. International Journal of Coal Geology, 174, 1-7.
  • 20. Yuan, L. (2011). Theories and techniques of coal bed methane control in China. Journal of Rock Mechanics and Geotechnical Engineering, 3(4), 343-351.
  • 21. Yuan, L. (2016). Control of coal and gas outbursts in huainan mines in China: A review. Journal of Rock Mechanics and Geotechnical Engineering, 8(4), 559-567.
  • 22. Zhu, W. C., Gai, D., Wei, C. H., & Li, S. G. (2016). High-pressure air blasting experiments on concrete and implications for enhanced coal gas drainage. Journal of Natural Gas Science and Engineering, 36(Part B), 1253-1263.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d22cf397-4091-419b-b248-7b64ac7c53f3
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