이온교환 능력을 가진 지지체에 부착된 나노 영가철을 이용한 질산성 질소의 환원과 부산물 제거

Other Titles
Reduction of Nitrate using Nanoscale Zero-Valent Iron Supported on the Ion-Exchange Resin
Authors
박희수박용민조윤성오수경강상윤유경민이성재최용수이상협
Issue Date
2007-12
Publisher
대한상하수도학회
Citation
상하수도학회지, v.21, no.6, pp.679 - 687
Abstract
Nanoscale zero valent ion (nZVI) technology is emerging as an innovative method to treat contaminated groundwater. The activity of nZVI is very high due to their high specific surface area, and supporting this material can help to preserve its chemical nature by inhibiting oxidation. In this study, nZVI particles were attached to granular ion-exchange resin through borohydride reduction of ferrous ions, and chemical reduction of nitrate by this material was investigated as a potential technology to remove nitrate from groundwater. The pore structure and physical characteristics were measured and the change by the adsorption of nZVI was discussed. Batch tests were conducted to characterize the activity of the supported nZVI and the results indicated that the degradation of nitrate appeared to be a pseudo first-order reaction with the observed reaction rate constant of 0.425 h-1 without pH control. The reduction process continued but at a much lower rate with a rate constant of 0.044 h-1, which is likely limited by mass transfer. To assess the effects of other ions commonly found in groundwater, the same experiments were conducted in simulated groundwater with the same level of nitrate. In simulated groundwater, the rate constant was 0.078 h-1 and it also reduced to 0.0021 h-1 in later phase. The major limitation in application of ZVI for nitrate reduction is ammonium production. By using a support material with ion exchange capacity, the problem of ammonium release can be solved. The ammonium was not detected in the batch test, even when other competitive ions such as calcium and potassium existed.
Keywords
nitrate; nanoscale zero valent iron; groundwater; permeable reactive barrier; 질산성 질소; 나노 영가철; 지하수; 반응벽체; nitrate; nanoscale zero valent iron; groundwater; permeable reactive barrier
ISSN
1225-7672
URI
https://pubs.kist.re.kr/handle/201004/133919
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KIST Article > 2007
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