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Correlation between Corrosion Rate and Red Water on Application of Corrosion Inhibitor in Drinking Water Distribution System  

Woo, Dal-Sik ((재)한국계면공학연구소)
Ku, Sung-Eun ((재)한국계면공학연구소)
Lee, Byung-Doo (한국수자원공사)
Kim, Ju-Hwan (한국수자원공사)
Moon, Kwang-Soon ((재)한국계면공학연구소)
Publication Information
Journal of Korean Society of Water and Wastewater / v.19, no.1, 2005 , pp. 68-77 More about this Journal
Abstract
This study was performed to evaluate the application of corrosion inhibitor and to examine the correlation between corrosion rate and red water in a series of batch tests and a test using auto corrosion monitoring system at A water treatment plant in Gyeonggido. The corrosion study in the auto corrosion monitoring system indicated that Fe concentration decreased by 30~50% and corrosion rate also reduced remarkably with corrosion inhibitor at $1.8mg\;PO_4/L$. After addition of corrosion inhibitor, it was indicated the effective adsorption of the inhibitor on the surface of the pipe line forming a protective film. The corrosion rate increases with the increase in Fe concentration. With $1.8mg\;PO_4/L$ of corrosion inhibitor, the corrosion rate decreased remarkably. Fe concentration had correlation to not only red water problems but also the corrosion rate that actually dissolved into the water, primarily due to the deposition of oxidized iron or other compounds as a scale, which serves as a large reservoir of corrosion by-product. Therefore, corrosion rate can be estimated by Fe concentration. For these reasons, an effective corrosion inhibitor is also an effective red water control reagent. The effect of the corrosion inhibition can last for some time even the application the corrosion inhibitor is discontinued. For the cost effective and efficient corrosion control, the concentration and timing of corrosion inhibitor addition must be determined properly.
Keywords
Corrosion Inhibitor; Distribution System; Corrosion Rate; Red Water;
Citations & Related Records
Times Cited By KSCI : 3  (Citation Analysis)
연도 인용수 순위
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