References

  1. B. Ericsson, B. Hallmans, Treatment and disposal of saline wastewater from coal mines in Poland, Desalination, 98 (1994) 239–248.
  2. B. Ericsson, B. Hallmans, Treatment of saline wastewater for zero discharge at the Debiensko coal mines in Poland, Desalination, 105 (1996) 115–123.
  3. M. Turek, J. Mrowiec-Białoń, W. Gnot, Utilization of coal mine brines in the chlorine production process, Desalination, 101 (1995) 57–67.
  4. M. Turek, Electrodialytic desalination and concentration of coal-mine brine, Desalination, 162 (2004) 355–359.
  5. M. Turek, P. Dydo, R. Klimek, Salt production from coal-mine brine in ED-evaporation-crystallization system, Desalination, 184 (2005) 439–446.
  6. M. Turek, P. Dydo, Hybrid membrane–thermal versus simple membrane systems, Desalination, 157 (2003) 51–56.
  7. M. Turek, M. Chorążewska, Nanofiltration process for seawater desalination-salt production integrated system, Desal. Wat. Treat., 7 (2009) 178–181.
  8. E. Drioli, A. Criscuoli, E. Curcio, Integrated membrane operations for seawater desalination, Desalination, 147 (2002) 77–81.
  9. F. Macedonio, E. Curcio, E. Drioli, Integrated membrane systems for seawater desalination: energetic and exergetic analysis, economic evaluation, experimental study, Desalination, 203 (2007) 260–276.
  10. T.A. Davis, Production of purified water and high value chemicals from salt water, Patent no. US2004055955 (2004).
  11. P.S. Wallace, Membrane and electrodialysis based seawater desalination with salt, boron and gypsum recovery, Patent no. US8999171 (2015).
  12. A. Raman, Process and system for producing sodium chloride brine, Patent application no. WO2013023249 (2012).
  13. Y. Tanaka, R. Ehara, S. Itoi, T. Goto, Ion-exchange membrane electrodialytic salt production using brine discharged from a reverse osmosis seawater desalination plant, J. Membr. Sci., 222 (2003) 71–86.
  14. M. Andersson (Ed.), Saline Waste Water from the Hard Coal Sector, Change and Continuity in Poland’s Environmental Policy, Springer Netherlands, Dordrecht, 1999, pp. 153–174.
  15. N. Voutchkov, Introduction to Reverse Osmosis Desalination, Available from: https://s3.amazonaws.com/suncam/npdocs/053.pdf. Accessed on (February 27, 2016), 2010.
  16. M. Turek, K. Mitko, E. Laskowska, M. Chorążewska, K. Piotrowski, A. Jakóbik-Kolon, P. Dydo, Energy Consumption and Gypsum Scaling Assessment in Hybrid Reverse Osmosis-Electrodialysis System for Seawater Desalination, 2nd International Conference on Desalination and Environment, Doha, Qatar, 2016.
  17. M. Wilf, Fundamentals of RO-NF Technology, International Conference on Desalination Costing, Middle East Desalination Research Center, Limassol, 2004 pp. 18–31.
  18. M. Turek, K. Mitko, M. Chorążewska, P. Dydo, Use of the desalination brines in the saturation of membrane electrolysis feed, Desal. Wat. Treat., 51 (2013) 2749–2754.
  19. K. Mitko, W. Mikołajczak, M. Turek, Electrodialytic concentration of NaCl for the chlor-alkali industry, Desal. Wat. Treat., 56 (2015) 3174–3180.
  20. A. Rahardianto, B.C. McCool, Y. Cohen, Accelerated desupersaturation of reverse osmosis concentrate by chemically-enhanced seeded precipitation, Desalination, 264 (2010) 256–267.
  21. M. Turek, J. Waś, K. Mitko, Scaling prediction in electrodialytic desalination, Desal. Wat. Treat., 44 (2012) 255–260.
  22. A. Packter, The precipitation of sparingly soluble alkaline-earth metal and lead salts: nucleation and growth orders during the induction period, J. Chem. Soc. A, (1968) 859–862.
  23. A. Lancia, D. Musmarra, M. Prisciandaro, Measuring induction period for calcium sulfate dihydrate precipitation, AIChE J., 45 (1999) 390–397.
  24. M. Prisciandaro, A. Lancia, D. Musmarra, Calcium sulfate dihydrate nucleation in the presence of calcium and sodium chloride salts, Ind. Eng. Chem. Res., 40 (2001) 2335–2339.
  25. M. Turek, M. Chorążewska, Laboratory cross-flow membrane filtration module, patent application no. EP2564919A1 (2013).