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  • Acrylamide release resulting from sunlight irradiation of aqueous polyacrylamide/iron mixtures.

Acrylamide release resulting from sunlight irradiation of aqueous polyacrylamide/iron mixtures.

Journal of agricultural and food chemistry (2008-03-21)
James E Woodrow, James N Seiber, Glenn C Miller
ABSTRACT

Linear anionic polyacrylamide (PAM) has been used in irrigation practices as a flocculating agent to minimize water losses through seepage in earthen canals. The stability of PAM is of concern because of the possibility of acrylamide (AMD) monomer release during environmental weathering. Aqueous solutions of commercial PAM mixed with ferric sulfate, subjected to simulated and natural sunlight irradiation, showed polymer chain scission and release of the AMD monomer. At acid/neutral pH, the amount of AMD released was directly related to the concentration of ferric ion and the irradiation time. At alkaline pH (approximately 8), PAM/Fe(3+) mixtures were stable under irradiation. PAM chain scission involved the hydroxyl radical, but specific AMD release appeared to require PAM-bound iron. Low iron concentrations and alkaline pH of irrigation water would limit AMD release. Residual monomer in PAM can contribute AMD to irrigation water, but concentrations would remain below the U.S. EPA drinking water standard of 0.5 ppb.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Polyacrylamide, nonionic water-soluble polymer
Sigma-Aldrich
Poly(acrylamide) solution, average Mw ~10,000, 50 wt. % in H2O