Full Description

This research deals with removal of As(V) from waters containing different levels ofCasup2+/sup, alkalinity, and silicate using Arsenil - a nanophase Fe-Mn oxide coated natural zeolite(U.S. Patent No. 6,790,363). Studies have shown that adsorptive media perform poorly under thefollowing water chemistries: high pH; high Casup2+/sup and alkalinity; and, high silicate. In highCasup2+/sup and alkalinity waters, the primary reason may be due to the CaCOsub3/sub formation resulting insurface passivation/fouling and/or site inaccessibility. Lowering the pH of these waters to 7improved the As(V) removal efficiency of the medium, and this may be attributed to thereduction or elimination of water alkalinity.In the first part of the study, Dallas, Texas municipal water was spiked with As(V) only as itcontains low Casup2+/sup, alkalinity, and silicate levels. This is representative of As water chemistry in theNortheast and Midwest regions of the USA. The Dallas water was spiked with 25 ppm Si along withAs(V) to simulate water conditions in the Pacific Southwest regions. The influentwater pH was maintained at 7 as these waters contain high alkalinity and in the presence of high Casup2+/sup formsCaCOsub3/sub in the intra- and inter-particle void spaces resulting in decreased As sorption. Based onthermodynamics, the dominant silicate species in the waters with pH ranging from 6 to 8.5 isHsub4/subSiOsub4/subsup0/sup (a neutral species), and lowering the pH will not revert significantly to charged silicatespecies. Since the pH was decreased to 7 in this study, no attempt was made to increase wateralkalinity.First, bench scale studies were conducted followed by pilot-scale studies using As(V)species, as these are the most dominant oxidation state in US waters. Bench scale studies wereuseful to provide As sorption properties and Empty Bed Contact Time (EBCT) for designing thecolumn studies.The column studies were performed using Dallas municipal water containing pH 8.2,low alkalinity and low Casup2+/sup and Si. In both the columns the effluent As levels were below the detection limits.There was also no significant sorption of Casup2+/sup and Si by the Arsenil medium. These studies show that Arsenil can be used successfully to treat high pH, and low Caand alkalinity water with no chemical pretreatment but for water with high Ca and alkalinitypretreatment is necessary. For high Si containing water but with low Ca and alkalinity, nopretreatment is recommended. The use of dual serial columns or roughing and polishingcolumns will significantly improve the As removal efficiency and EBCT. Includes 29 references, tables, figures.

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Edition: Vol. - No. Published: 11/01/2005 Number of Pages: 20File Size: 1 file , 710 KB