References

  1. X.L. Lu, The Development Strategy Research of China’s CBM Resources Industry Based on Sustainable Development, China University of Geosciences, Beijing, 2010.
  2. Z.R. Gao, X.L. Yu, Influence of coal-bed methane reservoir on environment and its treatment technology, Nat. Gas Ind., 17 (1997) 58–60.
  3. W.L. Fisher, J.W. Bauder, W.H. Clements, I. Hua, A.S. Maest, Management and Effects of Coalbed Methane Produced Water in the Western United States, 2010.
  4. H.L. Pan, D.P. Wu, The method of coal seam gas recovery water treatment and comprehensive utilization abroad, Energy Environ. Protect., 11 (1997) 27–28.
  5. Y.S. Cui, Y.W. Ju, Coal bed methane produced water quality and its impact on soil and plant: a review, Environ. Sci. Technol., 34 (2011) 25–30.
  6. G.M. Gu, Underground-water assessment method for environmental impact assessment in plan of coal mine areas in western China, Coal Geol. Explor., 5 (2007) 42–45.
  7. Q.Y. Ran, Z.X. Li, A. Amuti, Study on development and utilization of CBM in Xinjiang, Res. Develop., 2 (2009) 157–160.
  8. L.W. Hu, H.X. Chen, W.G. Yang, The potential environmental issues and countermeasures in CBM development, Energy Environ. Protect., 3 (2009) 38–42.
  9. Y. Meng, D. Tang, H. Xu, Y. Li, Coalbed methane produced water in China: status and environmental issues, Environ. Sci. Pollut. Res. Int., 21 (2014) 6964–6974.
  10. B. Liang, T.Y. Chen, Research on the impact of pressure distribution on well pattern arrangement in CBM reservoir, Eng. Mech., 10 (2012) 359–365.
  11. T.Y. Chen, B. Liang, W.J. Sun, F.F. Zhao, J.N. Liu, Research on pressure distribution regularity of complicatedly geologic CBM reservoir with multi-well exploitation, J. China Coal Soc., 4 (2011) 603–608.
  12. P. Li, J. Lu, L. Zhang, Y.S. Tan, R.S. He, Y.Y. Chen, Coalbed methane reservoir development scheme of Qinduan Block, Unconvent. Oil Gas, 4 (2015) 45–52.
  13. J.H. Pan, Unconventional gas and its pipeline transportation, Oil Gas Storage Transp., 11 (2008) 1–3.
  14. Z.C. Wang, C.M. Deng, W. Lu, W.C. Zhang, Water quality analysis of coal gas wells in Jincheng City, Co-Operative Econ. Sci., 21 (2008) 32–33.
  15. Y.X. Zhang, Study on water quality for discharge water of CBM well, Energy Energy Conserv., 7 (2011) 13–17.
  16. W.L. Sun, W.M. Yin, S.H. Wang, M.Z. Fan, An approach to essential issues of coalbed gas geology, Oil Gas Geol., 3 (1997) 21–26.
  17. S.X. Du, Application of nonmetal pipes in gathering and transportation network for CBM extracted water, China Coalbed Methane, 4 (2013) 44–47.
  18. K.G. Dahm, K.L. Guerra, P. Xu, J.E. Drewes, Composite geochemical database for coalbed methane produced water quality in the Rocky Mountain region, Environ. Sci. Technol., 45 (2011) 7655.
  19. P. Liu, B.S. Guang, L. Liang, W. Jiang, Fracturing fluid will also affect the quality of produced water in the early stage of CBM exploitation, China Coalbed Methane (in Chinese), 4 (2017) 25–28.
  20. C. Tian, D.Z. Tang, Z.J. Zhou, S. Tao, X.Z. Chen, C.L. Song, Hydrogeological characteristics and their control on coalbed methane in Binchang mining area, Coal Geol. Explor., 40 (2012) 43–46.
  21. H.H. Chen, H.F. Fan, J.P. Guo, X.W. He, Analysis and prospect on hydraulic fracturing fluid used in coalbed gas, Coal Geology Explor., 45 (2017) 1–8.
  22. L.H. Zhao, G.S. Jin, Effect evaluation of fracturing fluids on the characteristics of the water production in Hulunbeier oilfield, Oil-Gasfield Surf. Eng., 12 (2009) 27–28.
  23. C.T. Montgomery, M.B. Smith, Hydraulic fracturing: history of an enduring technology, J. Petrol. Technol., 62 (2010) 26–40.
  24. X. Liu, Z. Hu, C. Zhu, G. Wen, X. Meng, Removal of fluoride and total dissolved solids from coalbed methane produced water with a movable ultra-low pressure reverse osmosis system, Desal. Wat. Treat., 51 (2013) 4359–4367.
  25. Y. Sun, Q.Y. Feng, X.D. Li, H. Yang, L. Chen, Research progress of treatment and resource in produced water associated with CBM operations, Energy Environ. Protect., 24 (2010) 1–4.
  26. K.Y. Jin, J.G. Hu, S.Y. Jin, C.J. Gao, Comparison and optimization of zero discharge processes for treating reclaimed RO salinity wastewater, Technol. Water Treat., 41 (2015) 103–106.
  27. R. Günther, B. Perschall, D. Reese, J. Hapke, Engineering for high pressure reverse osmosis, J. Membr. Sci., 121 (1996) 95–107.
  28. T. Mezher, H. Fath, Z. Abbas, A. Khaled, Techno-economic assessment and environmental impacts of desalination technologies, Desalination, 266 (2011) 263–273.
  29. A.P.R. Koppol, M.J. Bagajewicz, B.J. Dericks, et al., On zero water discharge solutions in the process industry, Adv. Environ. Res., 8 (2004) 151–171.
  30. A. Helalizadeh, H. Müller-Steinhagen, M. Jamialahmadi, Mixed salt crystallisation fouling, Chem. Eng. Process. Process Intensif., 39 (2000) 29–43.