10.2190/H1YG-G6F3-892M-9N2P H1YGG6F3892M9N2P 5 Treatment Alternatives for Nitrate Contaminated Groundwater Supplies 65 75 20020509 20020509 20020509 20020509 H1YGG6F3892M9N2P.pdf http://baywood.metapress.com/link.asp?target=contribution&id=H1YGG6F3892M9N2P 1 Mohamed F. Dahab Department of Civil Engineering, University of Nebraska, Lincoln Nitrate concentrations in groundwater supplies throughout many areas in the United States, particularly in the Midwest, have steadily increased well past the Maximum Contaminant Limit established by the Safe Drinking Water Act of 1974 and its amendments of 1986. The concern over nitrate contamination stems from the fact that these salts have been linked to infant methemoglobinemia (blue-baby syndrome). Nitrates also have been linked to the formation of nitrosoamines and nitrosoamides, which are potent carcinogens. There are several methods of removing nitrates from groundwater supplies with varying degrees of efficiency, cost, and relative ease. These methods include anion exchange, biological denitrification, reverse osmosis, electrodialysis, and potentially chemical precipitation. The technical feasibility and economics of these processes indicate that only the first three can be considered viable at the present. This article is intended to discuss the relative technical feasibility of removing nitrates from groundwater supplies when using the above mentioned methods. Results from bench-scale experiments as well as data from the literature are used to develop a basis of comparison. The results of this effort indicate that ion-exchange is most advantageous when dealing with moderate nitrate contamination situations. However, in extreme contamination cases, biological denitrification followed by other water purification processes seems to be the most effective method of treatment. M. F. Dahab and R. Grachek, Biological Denitrification of Water Supplies, submitted to <i>ASCE Journal of Environmental Engineering</i>, February 1987. J. M. Montgomery, Consulting Engineers, Inc., <i>Water Treatment, Principles and Design</i>, John Wiley and Sons, New York, NY, 1985. R. J. Sova, The Chemical Removal of Nitrate from Water Supplies Using Ferrous Sulfates and Pickle Liquor, Master of Science Thesis, University of Nebraska-Lincoln Libraries, Lincoln, NB, 1986. D. R. Andersen, <i>Nitrates in Water Supplies: Basis for Concern and Status of Treatment Processes</i>, Department of Civil Engineering, University of Nebraska-Lincoln, Lincoln, NB, 1980. S. S. Mirvish, N-nitroso Compounds, Nitrite and Nitrate: Possible Implications For the Causation of Human Cancer, <i>Progress in Water Technology, 8</i>:4/5, p. 195, 1977. H. I. Shuval, et al., Infact Methemoglobinemia and Other Health Effects of Nitrates in Drinking Water, <i>Progress in Water Technology, 12</i>, p. 173, 1980. G. A. Guter, <i>Removal of Nitrate From Contaminated Water Supplies For Public Use: Final Report</i>, U. S. EPA Report No. 600/S2-82-042, 1982. R. P. Lauch and G. A. Guter, Ion Exchange for Removal of Nitrate From Well Water, <i>Journal of the American Water Works Association, 78</i>:5, pp. 83-88, 1986. W. J. Weber, <i>Physicochemical Processes for Water Quality Control</i>, John Wiley and Sons, Inc., New York, NY, 1972. D. Clifford and C-C. Lin, Ion Exchange and Membrane Processes for Nitrate Removal from Water, <i>Proc. National Conference on Environmental Engineering</i>, Boulder, CO, July 6-8, 1983. M. Ashton, Reverse Osmosis Can Be Cost-Effective, <i>Public Works, 117</i>:8, p. 55, 1986. Water Services, Developments in Denitrification, <i>Water Services, 90</i>:1084, p. 233, 1986. M. F. Dahab, Potential For Nitrate Removal From Water Supplies Using Biological Denitrification, <i>Proc. National Conference on Environmental Engineering</i>, Boston, MA, July 1-3, 1985. Metcalf and Eddy, Inc., <i>Wastewater Engineering: Collection, Treatment, Reuse</i>, Second Edition, McGraw-Hill, New York, NY, 1979. U. S. Environmental Protection Agency, Process Design Manual for Nitrogen Control, <i>EPA Technology Transfer</i>, Washington, D. C., 1975. U. S. Environmental Protection Agency, <i>Innovative and Alternative Technology Assessment Manual</i>, Office of Water Program Operation, EPA, Washington, D. C., 1980.