• 생태와환경
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• 제41권2호
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• pp.166-173
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• 2008

오염물질을 제거하기 위한 방법 중 하나인 석회 처리를 통하여 청초호 표층 퇴적물에 함유된 중금속의 존재 형태 변화와 환경변화시 수층으로의 용출가능성을 알아보았다. 연속추출 방법을 사용하여 중금속의 화학적 형태를 분석하였고 수층으로의 용출 가능성은 흡착된 형태와 공침된 형태의 합으로 하였다. 석회 처리 전의 청초호 퇴적물에 함유된 Cd과 Cu 및 Zn의 존재형태는 호수 바닥과 같은 혐기성 상태에서 안정된 산화성 형태가 많았으나 석회 처리 시료에서는 이 부분의 비율이 줄어든 반면 용출되기 쉬운 부분인 흡착된 형태와 공침된 형태의 비율이 증가하였다. 이는 석회 첨가로 인한 공극수의 pH상승과 대기중에 노출로 인한 산화에 의한 것으로 판단된다. 수층으로 이동 가능한 부분의 비율은 Cd의 경우 석회함량 15%, Pb은 10%, Cu와 Zn은 20%에서 높게 나타나 중금속으로 오염된 퇴적물의 석회 처리는 퇴적물에 함유된 중금속의 용출을 증가시킬 가능성이 있는 것으로 사료된다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제25권1호
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• pp.74-83
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• 2020

In this study, the effect of hydrochloric acid (HCl) concentrations on removal efficiency and chemical forms of heavy metals in dredged sediment during acid washing was investigated. The removal efficiencies of Zn, Cu, Pb, Ni and Cd by acid washing were 18.4-92.4%, 7.2-83.7%, 9.4-75%, 8.1-53.4% and 34.4-70.8%, respectively. Overall, the removal efficiencies of heavy metals were remarkably enhanced with the increase of the acid strength. However, the removal efficiencies for 0.5 and 1.0 M HCl were comparable, and both cases met the Korean soil contamination standard. Based on the sequential extraction results, concentration of the exchangeable fraction (F1), the most labile fraction, increased whereas concentrations of the other fractions decreased with increasing acid strength. Particularly, the carbonate (F2) and Fe/Mn oxides (F3) fractions drastically decreased by using 0.5 M or 1.0 M HCl. The current study results verified that acid washing could effectively reduce heavy metal concentrations and its potential mobility in dredged sediments. However, the study also found that acid washing may cause significant increase in bioavailable fraction of heavy metals, suggesting the need to evaluate the changes in chemical forms of heavy metals by acid washing when determining the acid strength to be applied.

• 한국환경과학회지
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• 제26권7호
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• pp.847-858
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• 2017

For 26 soil series distributed more than 1% among 63 soil series in Jeju Island, natural uncultivated soil samples were collected. For these soils, the chemical speciation of eight heavy metals (Cd, Cr, Cu, Mn, Ni, Pb, V, and Zn) was examined. Further, the Plant Bioavailability (PB) and Mobility Factor (MF) of these heavy metals were evaluated using Tessier's 5-step sequential extraction method (exchangeable, carbonate, reducible (bound to Fe/Mn oxides), oxidizable (bound to organic matter), and residual fraction). The main form present was residual fraction for Cd and Zn; residual and oxidizable fractions for Cr, Cu, Ni, and Pb; reducible fraction for Mn; and carbonate fraction for V. The average plant availability and average mobility factor were found to be V (57.37%) > Zn (12.49%) > Cd (11.76%) > Cu (11.19%) > Pb (9.37%) > Cr (9.09%) > Mn (3.13%) > Ni (2.63%), and Mn (61.04%) > V (59.94%) > Zn (31.54%) > Cd (17.65%) > Cr (15.66%) > Ni (13.89%) > Pb (13.80%) > Cu (13.53%), respectively.

• 자원환경지질
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• 제32권3호
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• pp.261-271
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• 1999

Mining activity in the Gubong gold mine started in 1908 and lasted up to recent days. Heavy metals derived from the activity may be porentially toxic to human life and envirinment of this area. Because metal toxicity depends on chemical associations into five operationally defined groups: exchangeable, carbonate, reducible, oxidizable, and residual fractions, and the Most of heavy metals have significant little significance (alomost<1%). And Cu is mainly associated with the oxidizable from. Total concentration of heavy metals, pH, and mineralogy affect the chemical forms of the metals. Heavy metal concentrations. Significant amounts of metal elements (5∼65.1% in Pb, 6.2∼39.7% in Zn, 8.7∼54.7% in Cd, and 3.6∼24.7% in Cu) were present in carbonate form from mine wastes, contaminated soils and sediments. High pH value and cerussite (Pb bearing carbonate mineral) in mine wastes, contaminated soils and sediments. High pH value and cerussite (Pb beraring varbonate mineral) in mine waste support this result. Areas with high corbonate bound from would have higher potentoal conamination, however, because elements of carbonate bound forms are easily mobilized under lower pH conditions in the surface envionments due to acid to rain soil acidification.

• 생태와환경
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• 제38권3호통권113호
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• pp.334-340
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• 2005

The chemical forms of Cd, Cu, Pb, and Zn were analysed by sequential extraction technique to evaluate the effects of drying and heating of dredged sediments from Lake Chungcho. The most abundant fraction of Cd, Cu, and Zn in the wet and untreated sediment was organic/sulfidic fraction that is state in reducing environment such as the bottom condition of Lake Chungcho, while Pb dominated in residual fraction. This means that the source of Cd, Cu, and Zn in the Chungcho lake sediment is related to the organic degradation and Pb to the erosion from surrounding rocks. With drying and oxidation by dredging, heating treatment, and disposal of the lake sediment, the chemical forms of studied metals changed greatly from organic/sulfidic fraction to adsorbed and reducible fractions which are more labile in oxygenated environment. Organic/sulfidic fraction of Cd, Cu and Pb in the wet sediment was transformed with drying and heating treatments to the labile ones like adsorbed and reducible fraction, but Zn to carbonate and reducible fraction. Heating of the sediment at $320^{\circ}C$ greatly increased the labile fraction of Cd and Cu, while that at $105^{\circ}C$ for Pb and Zn. It is believed that the increase in labile forms of heavy metals in the sediments by drying and heating is caused by the contact with oxygen during drying and heating and by the increase of pH of the pore water at the expense of organic/sulfidic fraction. It is concluded that the drying and oxidation currently used in the treatment of dredged sediment can increase labile forms of heavy metals in the sediment, and the potential of the metal availability from the sediment.

• 한국토양환경학회지
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• 제5권2호
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• pp.33-43
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• 2000

적절한 조치 없이 방치되어온 폐광재가 폐광산 근교 및 멀리 떨어진 지역의 유휴지 혹은 농경지까지 다양한 경로를 통해 영향을 주고 있다. 중금속은 일반적인 방법으로 더 이상 분해되지 않는 원소 상태로 존재하고, 단순 매립할 경우 처분후에도 계속적인 용출과정이 일어날 수 있으므로 물리 화학적으로 보다 안정된 상태로 고정화시켜야 한다. 본 연구에서 화학적 고정화 첨가제로 사용된 CaO, $Na_2$Sㆍ$5H_2$O, $CaCO_3$순으로 각 중금속에 대해 높은 고정화 Capacity (q)와 효율 (k)을 나타냈으며 bentonite가 다른 토양보다 물리 화학적 특성과 고정화능이 우수하여 이들이 ADM를 고정화하는 좋은 첨가제라고 사료된다. bentonite 50g에 흡착된 각 중금속에 대하여 Freundlich 등온식을 적용해서 Freundlich등온식의 상수인 n과 k값을 나타내었다.

• 한국물환경학회지
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• 제38권2호
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• pp.82-94
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• 2022

In this study, chemically modified biochar (NSBP500, KSBP500, OSBP500) derived from starfish was utilized to improve the adsorption ability of the SBP500 (Starfish Biochar Pyrolyzed at 500℃) in a solution contaminated with heavy metals. According to the biochar modification performance evaluation batch tests, the removal rate and adsorption amount of NSBP500 increased 1.4 times for Cu, 1.5 times for Cd, and 1.2 times for Zn as compared to the control sample SBP500. In addition, the removal rate and adsorption amount of KSBP500 increased 2 times for Cu, 1.8 times for Cd, and 1.2 times for Zn. The removal rate and adsorption amount of OSBP500 increased 5.8 times for Cu. The FT-IR analysis confirmed the changes in the generation and movement of new functional groups after adsorption. SEM analysis confirmed Cu in KSBP500 was in the form of Cu(OH)₂ and resembled the structure of nanowires. The Cd in KSBP500 was densely covered in cubic form of Cd(OH)₂. Lead(Pb) was in the form of Pb₃(OH)₂(CO₃)₂ in a hexagonal atomic layer structure in NSBP500. In addition, it was observed that Zn was randomly covered with Zn₅(CO₃)₂(OH)₆ pieces which resembled plates in KSBP500. Therefore, this study confirmed that biochar removal efficiency was improved through a chemical modification treatment. Accordingly, adsorption and precipitation were found to be the complex mechanisms behind the improved removal efficiency in the biochar. This was accomplished by electrostatic interactions between the biochar and heavy metals and ion exchange with Ca²⁺.

• 한국토양비료학회지
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• 제40권2호
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• pp.164-171
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• 2007

공단인근의 여러 중금속이 복합적으로 오염된 토양에서 중금속의 존재형태와 미나리 중 함량과의 관계를 평가하기 위하여 미나리 재배토양, 농수로 퇴적 저니토 및 대조토양과 동일지점에서의 미나리를 채취하여 분석 검토하였다. 토양의 중금속 총함량 중 Cd, Cu 및 Ni의 평균농도가 Kloke (1979)가 제안한 중금속의 허용한계치를 초과하였다. 중금속별 토양 내 주된 존재형태는 Cd이 치환태였고, 다른 중금속 (Cu, Zn, Ni 및 Pb)은 Fe-Mn 산화물 및 잔류 형태로 나타났다. 재배토양과 농수로 저니토의 형태별 함량에 의하여 환산된 잠재적인 중금속 이동계수는 Cd>Zn>Ni>Cu>Pb 순이였고, 특히 Cd의 경우 대조토양에 비하여 매우 높은 것으로 알수 있었다. 토양의 Cd 전함량과 토양 내 이동성이 높은 치환성 및 Fe-Mn 산화물 분포비율과는 정의 상관, 이동성이 낮은 잔류태와는 부의 상관을 보였다. 미나리 부위별 중금속은 대부분이 뿌리에 축적되었으며, 지상부로의 이행성은 Cd과 Zn가 줄기에서 높았고, Cu와 Ni 함량은 오히려 잎에서 높았다. 토양 중금속 중 Cd, Cu 및 Ni의형태별 함량과 미나리 중 함량과 관련성이 높았고, 특히 치환성 Cd과 Ni 함량은 미나리 중 함량과 고도의 정의상관을 보였다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제27권5호
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• pp.10-17
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• 2022

Inorganic acids such as HCl, HNO₃, and H₂SO₄ have been commonly applied to soil washing of heavy metals-contaminated soil due to their cost-effectiveness. However, implementing the 'Chemical Substance Control Act' requires off-site risk assessment of the chemicals used in the soil washing. Therefore, in this study, organic acids or Fe(III)-based washing agents were evaluated to replace commonly used inorganic acids. Ferric removed heavy metals via H⁺ generated by hydrolysis, which is similar to the HCl used in the control group. Oxalic acid and citric acid were effective to remove Cu, Zn, and Cd from soil. Organic acids could not remove Pb because they could form Pb-organic acid complexes with low solubility. Furthermore, Pb could be adsorbed onto the iron-organic acid complex on the soil surface. Ferric could remove exchangeable-carbonate, Fe-Mn hydroxide, and organic matter and sulfides bound heavy metals (F1, F2, and F3). Organic acids could remove the exchangeable-carbonate and Fe-Mn hydroxide bound metals (F1&F2). Therefore, this research shows that the fractionation of heavy metals in the soil and the properties of washing agents should be considered in the selection of agents in the process design.

• Biotechnology and Bioprocess Engineering:BBE
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• 제6권6호
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• pp.376-385
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• 2001

Considerable attention has been focused in recent years upon the field of biosorption for the removal of metal ions from aqeous effluents. Compared to other technologies, the advan-tages of biosortption are the high purity of the treated waste water and the cheap raw material. Really, the first major challenge for the biosorption field is to select the most promising types of biomass. Abundant biomass types either generated as a waste by-product of large-scale industrial fermentations particularly fungi or certain metal-binding seaweeds have gained importance in re-cent years due to their natural occurrence, low cost and, of course good performance in metal biosorption. Industrial solutions commonly contain multimetal systems or several organic and in organic substances that form complexes with metals at relatively high stability forming a very complex environment. When several components are present, interference and competition phe-nomena for sorption sites occur and lead to a more complex mathematical formulation of the process. The most optimal configuration for continuous flow-biosorption seems to the packed-bed column which gets gradually from the feed to the solution exit end. Owing to the com-petitive ion exchange taking place in the column, one or more of the metals present even at trace levels may overshot the acceptable limit in the column effluent before the breakthrough point of the trargeted metal. Occurrence of 'overshoot's and impact on havey metal removal has not been analyzed enough. New trends in biosorption are discussed in this review.