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Iron Oxide Enhanced Chlorine Decay and Disinfection By-Product Formation |
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| Authors: | Kazi Z. A. Hassan Kevin C. Bower Christopher M. Miller |
| Affiliation: | 1Water Application Engineer, Parker Hannifin Corporation, 1005 A Cleaner Way, Huntsville, AL 35805. E-mail: khassan@parker.com 2Assistant Professor, Dept. of Civil and Environmental Engineering, 171 Moultrie St., The Citadel, Charleston, SC 29409 (correspondingauthor). E-mail: bowerkl@citadel.edu 3Associate Professor, Dept. of Civil Engineering, 210 Auburn Science and Engineering Center, Univ. of Akron, Akron, OH 44325-3905. E-mail: cmmiller@uakron.edu |
| Abstract: | This study investigates the interaction of natural organic matter with iron oxide (goethite) on chlorine decay, disinfection by-product (DBP) formation, and DBP compound speciation [total trihalomethanes (TTHM4) and haloacetic acids (HAA5)]. Batch experiments were conducted with goethite, multiple finished drinking waters, variable chlorine dose, and fixed pH 8. The overall objective was to assess natural organic matter (NOM) adsorption onto goethite and its effect on chlorine decay and DBP formation. Chlorine consumption always increased in the presence of goethite and is attributed to an increase in the reactivity and/or modification of adsorbed NOM. Adsorbed NOM also led to an overall increase in TTHM4, however, HAA5 formation was suppressed during the first 2?h. Chloroform was identified as the increasing species and dichloracetic acid was identified as the suppressed species. This study clearly shows that goethite, which is the predominant iron oxide of pipe deposits, alters both chlorine decay and DBP formation and should be considered when assessing water treatment plant operations and DBP monitoring site selection. |
| Keywords: | Halogen organic compounds Water distribution systems Disinfection Chlorine Iron |