Decrease of Chloroethyl in Metallic IronWater Systems
George W. Smith, Christina Q. Williams
Separation Analytical Chemistry, California American University, California, American
Abstract: Batch experiments examining the kinetics and mechanism of vinyl Chloroethyl (VC) reduction by metallic iron in aqueous systems were performed. The effects of various iron loadings, VC concentrations, pH conditions, temperatures, and Fe-(II)/Fe(III) chelating agents (1,10-phenanthroline, 2,2 -dipyridyl,and nitrilotriacetic acid) on reduction kinetics were examined. Ethylene was the major carbon-containing product of VC reduction under all conditions examined, indicating hydrogenolysis. The reaction was pseudo-firstorder with respect to aqueous VC concentration. The amount of VC adsorption on iron surfaces was estimated from the rapid initial loss of VC from solution, and the result antsorption isotherm was linear over the concentration range examined. The first-order kinetics and the line arsorption for VC suggest that the portion of VC sorption to surface reactive sites relative to nonreactive sorption sites is constant, unlike the behavior observed for the higher chlorinated ethenes. The activation energy of the reaction was measured to be 41.6 ( 2.0 kJ/mol, sufficiently large to indicate that the chemical reaction at the surface, rather than aqueous phase diffusion to the surface, controls the overall rate of the reaction. Experiments with the chelating agents suggest that the effect of available Fe-(II) on VC reduction is not significant.
Keywords: Materials; Vinyl Chloride; Fe