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KMID : 0382420030290030065
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Korean Journal of Environmental Health Society
2003 Volume.29 No. 3 p.65 ~ p.71
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Effect of Phosphate-based Inhibitors on Pipe Corrosion of Drinking Water Supply
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Lee Yoon-Jin
Nam Sang-Ho
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Abstract
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The injection concentration of corrosion inhibitor increases under the pH 7. temperature of 20¡É. and alkalinity of 35 §·/l(as CaCO©ý). the corrosion rate gradually decreased. When the corrosion inhibitor of 10 §·/l is injected, the corrosion rate for carbon steel pipe, galvanized steel pipe. and copper pipe reduces for 37, 66 and 61% respectively that it is more efficient on galvanized steel pipe and copper pipe. As a result of examination of corrosion rate at pH 6, 7, and 8 when injecting 10 §·/l of corrosion inhibitor under the conditions of 20¡É in water temperature and 35 §·/l (as CaCO©ý) in alkalinity, the efficiency of the corrosion inhibitor increases as the pH increases. For carbon steel pipe, it does not show much a difference with the change of the pH condition. but galvanized steel pipe and copper pipe clearly show the corrosion rate depending on the change of the pH condition. The efficiency of corrosion inhibitor is low as the concentration of residual chlorine is high, but it does not show a great influence at 0.4 §·/l or less. For each pipe type. in the case of carbon steel pipe, the range of increase of corrosion speed following the residual chloride is higher than the other pipe types. In the meantime. the effect following the residual chlorine in copper pipe is low.
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