Full Description

The objectives of this work were to quantify the effects of pH and competing ions in thepresence and absence of other competing ions on arsenic removal during coagulation with ferricchloride. An additional objective was to compare in-situ formed ferric hydroxides vs. granular ferricoxide media as arsenic adsorbents on the basis of g As sorbed/g Fe(III). Finally, attempts weremade to use the MINEQL+ chemical equilibrium modeling program to predict arsenic adsorption asa function of pH and competing ions. The removal of As(V) was highly pH dependent while As(III)was largely independent of pH in the NSFI-53 challenge water. The adsorption of As(V) which ischarged in the pH range of 6.5-8.5 was significantly higher than uncharged As(III). The in-situformed hydroxides had significantly higher adsorption capacities compared to the granular mediadue to high effective surface area of FeOOH coagulant. All three competing ions--silicate,phosphate, and vanadate--interfered with arsenic adsorption, and the level of interference dependedon the competing ion concentration and the presence or absence of other competing ions. Theunmodified Mineql+ chemical equilibrium modeling program could not simulate As(III) or As(V)adsorption onto Fe(OH)sub3/sub during FeClsub3/sub coagulation. Includes figures.

Product Details

Edition: Vol. - No. Published: 06/01/2006 Number of Pages: 9File Size: 1 file , 340 KB