• Title/Summary/Keyword: Competitive Adsorption

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An Investigation of Treatment Effects of Limestone and Steel Refining Slag for Stabilization of Arsenic and Heavy Metal in the Farmland Soils nearby Abandoned Metal Mine (폐금속 광산 주변 비소 및 중금속 오염농경지의 안정화 처리를 위한 석회석과 제강슬래그의 처리효과 검토)

  • Yun, Sung-Wook;Kang, Sin-Il;Jin, Hae-Geun;Kim, Ha-Jin;Lim, Young-Cheol;Yi, Ji-Min;Yu, Chan
    • Korean Journal of Soil Science and Fertilizer
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    • v.44 no.5
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    • pp.734-744
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    • 2011
  • A soil stabilization method is an effective and practical remediation alternative for arsenic (As) and heavy metal contaminated farmland soils nearby abandoned metal mine in Korea. This method is a technique whereby amendments are incorporated and mixed with a contaminated soil. Toxic metal bind to the amendments, which reduce their mobility in soil, so the successful stabilization of multi-element contaminated soil depends on the combination of critical elements in the soil and the type of amendments. The objective of this study is to investigate the treatment effects and applicability of limestone (LS) and steel refining slag (SRS) as the amendment for farmland soil contaminated with As and heavy metals, and a lab-column test was conducted for achieving this purpose. The result showed that soil treated with LS and SRS maintained pH buffer capacity and, as a result, the heavy metal leaching concentration was quite low below the water quality standard compared to untreated soil which leachate exceeding the water quality standard was observed, however, the arsenic concentration rather increased with increasing mixture ratio of SRS. This was believed to be related to phosphorus (P) contained in SRS, and dominancy in the competitive adsorption relation between As and P binding strongly to iron might be different according to soil characteristic. We suggested that LS is a effective amendment for reducing heavy metals in soil, and SRS should be used after investigating its applicability based on the adsorption selectivity of arsenic and phosphorus in selected soil.