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RESEARCH PAPERS : EFFECT OF PREOZONATION IN DRINKING WATER TREATMENT USING POLYAMINE FLOCCULANT


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References

  1. Stevens, A. A., Moore, L. A., and Miltner, R. J. "Formation and Control of Non-Trihalomethane Disinfection By-products," J. AWWA, 81(8), 54-60 (1989).
  2. Reckhow, D. A., Singer, P. C., and Malcolm, R. L. "Chlorination of Humic Materials: Byproduct Formation and Chemical Interpretations," Environ. Sci. Technol., 24(11),1655-1664 (1990). https://doi.org/10.1021/es00081a005
  3. AWWA, Water Quality and Treatment, Pontius, F. W.(Ed.), McGraw-Hill, New York (1990).
  4. EPA, Alternative Disinfectants and Oxidants Guidance Manual, No.815-R-99-014 (1999).
  5. Lee, S. H., Shin, M. C., Choi, S. J., Shin, J. H., and Park, L. S., "Improvement of Flocculation Efficiency of Water Treatment by Using Polymer Flocculants,"Environ. Technol., 19(4), 431-436 (1998). https://doi.org/10.1080/09593331908616699
  6. Lee, S. H., Shin, M. C., Choi, S. J., Shin, J. H., and Park, L. S., "Improvememt of Water Treatment Performance by Using Polyamine Flocculants," Environ. Technol., 22(6), 653-660 (2001). https://doi.org/10.1080/09593332208618237
  7. Lee, J. D. Application of Synthetic Polyamine Flocculants in Potable Water Treatment: Analysis of Residues and Removal of Filter-clogging Algae, Ph.D. thesis, Kyung-pook Nat. Univ. (2001).
  8. Jekel, M. R., "Effects and Mechanisms Involved in Preoxidation and Particle Seperation Processes," Water Sci. Technol., 37(10), 1-7 (1998). https://doi.org/10.1016/S0273-1223(98)00296-0
  9. Siddiqui, M. S., Amy, G. L., and Murphy, B. D., "Ozone Enhanced Removal of Natural Organic Matter from Dringking Water Sources," Water Res., 31(12), 3098-3106 (1997). https://doi.org/10.1016/S0043-1354(97)00130-9
  10. Tobiason, J. E., Edzwald, J. K., Schneider, O. D., Fox, M. B., and Dunn, H. J., "Pilot Study of the Effects of Ozone and Peroxone on In-Line Direct Filtration," J. AWWA. 84(12), 72-84 (1992).
  11. Gurol, M. D. and Pidatella, M., "A Study of Ozone-Induced Coagulation," Conference proceedings, ASCE Environmental Engineering Division Specialty Conference, Medine, A. and Anderson, M.(Eds.), Boulder, CO. (1983).
  12. Becker, W. C., O'Melia, C. R., "Ozone: Its Effect on Coagulation and Filtration," Water Sci. Technol., 1(4), 81-88 (2001).
  13. Anthony, T. C., U.S. Pat., NO.3, 248, 353, (1966).
  14. Shalaby, W. S., McCormick, C. L., and Butler, G. B., "Water-Soluble Polymers: Synthesis, Solution Properties and Applications," ACS Symposium Series 467, American Chemical Society, Washington DC, pp. 2-80 (1991). https://doi.org/10.1021/bk-1991-0467.ch001
  15. Rosen, S. L., Fundamental Principles of Polymeric Materials, 2nd ed., John Wiley and Sons, New York (1993).
  16. APHA, AWWA, and WEF, Standard Method for the Examination of Water and Wastewater 20th ed., Washington, DC. (1998).
  17. Langlais, B., Reckhow, D. A., and Brink, D. R.(Eds.), Ozone in Water Treatment: Application and Engineering, AWWARF and Lewis Publishers, Boca Raton, FL (1991).

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