References

  1. U.B. Ogutveren, N. Goenen and S. Koparal, Removal of dye stuffs from waste water: electrocoagulation of Acilan Blau using soluble anode, J. Environ. Sci. Health, Part A, 27 (1992) 1237– 1247.
  2. J.W. Akitt and A. Farthing, 27Al nuclear magnetic resonance studies of heteropolyanions containing aluminum as heteroatom, J. Chem. Soc. Dalton, 8 (1981) 1615–1616.
  3. H.J. Liu, J.H. Qu and C.Z. Hu, Study on batch scale production poly-aluminum chloride by electrochemical process, High Technol. Commun., 216 (2002) 139–147.
  4. L. Huang, D.S. Wang, H.X. Tang and S.F. Wang, Separation and purification of nano-Al13 by UF method. Colloids Surfaces A: Physicochem. Eng. Aspects, 275 (2006) 200–208.
  5. P.M. Bertsch, W.J. Layton and R.I. Barnhisel, Speciation of hydroxyl- aluminum solutions by wet chemical and 27Al NMR methods, Soil. Sci. Soc. Am. J., 50 (1987) 1449–1454.
  6. V. Pophristic, V.S.K. Balagurusamy and M.L. Klein, Structure and dynamics of the aluminu chlorohydrate polymer Al13O4 (OH) 24(H2O) 12Cl7, Phys. Chem. Chem. Phys., 6 (2004) 919–923.
  7. H.X. Tang, Features and mechanism for coagulation flocculation processes of poly-aluminum chloride, Environ. Sci. Technol., 25 (1992) 914–921.
  8. J.J. Bepuech, In: NMR of Newly Accessible Nuclear, P. Laszlo, ed., Academic Press, New York, USA, 1983, p. 153.
  9. P.M. Bertsch and D.R. Parker, Formation of the Al13: Tridecameric polycation under diverse synthesis conditions, Environ. Sci. Technol., 22 (1989) 895–903.
  10. Y. Xu, D. Wang, H. Liu and H. Tang, Optimization on the separation and purification of Al13, Colloids Surf., 231 (2003) 1–9.
  11. D.S. Wang, W. Shi, H.X. Tang and J. Gregory, Speciation stability of inorganic polymer flocculant–PACl, Colloids Surf., 243 (2004) 1–10.
  12. J.Y. Bottero, M. Axelos, D. Tchoubar, J.M. Cases, J.J. Fripiat and F. Fiessinger, Mechanism of formation of aluminum trihydroxide from Keggin Al13 polymers, J. Colloid Interface Sci., 117 (1987) 47–57.
  13. G.J. Lu, J.H. Qu and H.X. Tang, Study on the electrochemical production of highly effective poly-aluminum chloride, China Environ. Sci., 18 (1998) 140–143.
  14. J.H Qu and H.J. Liu, Optimum conditions for Al13 polymer formation in PACl preparation by electrolysis process. Chemosphere, 55 (2004) 51–56.
  15. Y.T. Luo, K.W. Pi, C.N. Zhong and A. Cheng, Synthesis of polyaluminum chloride by electrolysis process with rearranges able electrodes, Environ. Protect. Chem. Industry, 24 (2004) 145–147.
  16. R.S. Li, Basic Aluminum Chloride, Architecture Publisher’s House, Beijing, China, 1981.
  17. Y.C. Zhu, S.P. Wu and J.M. Lin, Electrode’s behaviors of treating industry wastewater by magnetic-electrolysis process, Environ. Sci., 17 (1996) 6–9.
  18. B.Y. Shi, G.H. Li, D.S. Wang and H.X. Tang, Separation of Al13 from polyaluminum chloride by sulfate precipitation and nitrate metathesis, Separ. Purif. Technol., 54 (2007) 88–95.