Admakin, L. A., et al. (1998). Prospects for utilization of activated anthracites in technology for cleaning the waste waters. Koks i Khimiya/Coke Chem, 8, 30-32.
American Water Works Association (1990). Alternative Oxidants for the Removal of Soluble Iron and Manganese. Am. Water Works Assoc., Denver.
American Water Works Association (1984). Softening, Iron Removal, and Manganese Removal. Am. Water Works Assoc., Denver.
AWI MARKETING. Anglian House, Ambury Road, Huntingdon, Cambs PE18 6NZ, England. As obtained from the Internet, July 1998.
Burns, F. L. (1997). Case study: Automatic reservoir aeration to control manganese in raw water Maryborough town water supply, Queensland, Australia. Water Science Tech-nol., Proc. 1997 1st IAWQ-IWSA Joint Specialist Conf. on Reservoir Manage. and Water Supply—An Integrated Syst., May 19-23, Prague, Czech Republic, 37, 2, 301-308. Elsevier Science Ltd., Exeter, England.
Clasen, J. (1997). Efficiency control of particle removal by rapid sand filters in treatment plants fed with reservoir water: A survey of different methods. Water Science Technol., Proc. 1997 1st IAWQ-IWSA Joint Specialist Conf. on Reservoir Manage. and Water Supply—An Integrated Syst., May 19-23, Prague, Czech Republic, 37, 2, 19-26. Elsevier Science Ltd., Exeter, England.
Diz, H. R. and J. T. Novak (1997). Heavy metal removal in an innovative treatment system for acid mine drainage. Hazardous Industrial Wastes, Proc. 1997 29th Mid-Atlantic Industrial and Hazardous Waste Conf., July 13-16, Blacksburg, VA, 183-192. Technomic Publ. Co. Inc., Lancaster, PA.
Gouzinis, A., et al. (1998). Removal of Mn and simultaneous removal of NH3, Fe and Mn from potable water using a trickling filter. Water Res. 32, 8, 2442-2450.
Guo, X., et al. (1997). Iron removal from reduction leaching solution of Mn-nodule in dilute HCl. Zhongguo Youse Jinshu Xuebao/Chinese J. Nonferrous Metals. 7, 4, 53-56.
Hedberg, T. and T. A. Wahlberg (1997). Upgrading of waterworks with a new biooxidation process for removal of manganese and iron. Water Science Technol., Proc. 1997 Int. Conf. on Upgrading of Water and Wastewater Syst., May 25-28, Kalmir, Sweden, 37, 9, 121-126. Elsevier Science Ltd., Exeter, England. Holtzclaw Jr., H. F. and W. R. Robinson (1988). General Chemistry. D. C. Heath and Company,
Lexington, MA, A7, 809. Knocke, W. R. (1990). Alternative Oxidants for the Removal of Soluble Iron and Manganese.
Am. Water Works Assoc., Denver. McNeill, L. and M. Edwards (1997). Predicting as removal during metal hydroxide precipitation. J. Am. Water Works Assoc., 89, 1, 75-86. Perry, R. H. and C. H. Chilton (1973). Chemical Engineers' Handbook. p (3-138). McGraw-
Hill, New York, 3-138. Ranganathan, K. and C. Namasivayam (1998). Utilization of Waste Fe(III)/Cr(III) hydroxide for removal of Cr(VI) and Fe(II) by fixed bed system. Hungarian J. Industrial Chem. 26, 3, 169-172.
Rich, G. (1963). Unit Process of Sanitary Engineering. John Wiley & Sons, New York. Robinson, R. B. (1990). Sequestering Methods of Iron and Manganese Treatment. Am. Water Works Assoc. Denver.
Snoeyink, V. L. and D. Jenkins (1980). Water Chemistry. John Wiley & Sons, New York, 210. Sikora, F. J., L. L. Behrends, and G. A. Brodie (1995). Manganese and trace metal removal in successive anaerobic and aerobic wetland environments. Proc. 57th Annu. Am. Power Conf., Part 2, April 18-20, Chicago, IL, 57-2, 1683-1690. Illinois Institute of Technology, Chicago, IL. Sincero, A. P. and G. A. Sincero (1996). Environmental Engineering: A Design Approach. Prentice Hall, Upper Saddle River, NJ.
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