• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2003년도 추계학술발표회
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• pp.78-82
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• 2003

Development of hematite-coated sand was evaluated for the application of the PRB (permeable reactive barrier) in the arsenic-contaminated subsurface of the metal mining areas. The removal efficiency of As(III) and As(V), the effect of anion competition and the capability of arsenic removal in the flow system were investigated through the experiments of adsorption isotherm, arsenic removal kinetics against anion competition and column removal. Hematite-coated sand followed a linear adsorption isotherm with high adsorption capacity at low level concentrations of arsenic (< 1.0 mg/l). When As(III) and As(V) underwent adsorption reactions in the presence of anions (sulfate, nitrate and bicarbonate), sulfate caused strong inhibition of arsenic removal, and bicarbonate and nitrate caused weak inhibition due to specific and nonspecific adsorption onto hematite, respectively. In the column experiments, high content of hematite-coated sand enhance the arsenic removal, but the amount of the arsenic removal decreased due to the higher affinity of As(V) than As(III) and reduced adsorption kinetics in the flow system, Therefore, the amount of hematite-coated sand, the adsorption affinity of arsenic species and removal kinetics determined the removal efficiency of arsenic in the flow system. arsenic, hematite-coated sand, permeable reactive barrier, anion competition, adsorption.

• 농업과학연구
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• 제23권2호
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• pp.250-260
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• 1996

Observed results of the adsorption between two competing anions for the shared sorption sites represent that the adsorption phenomena may depends on the characteristics of anion and available sorption sites in a given conditions. In binary systems, adsorption of one species can significantly influence the fate of the other anion, resulting in control of the extent of solute-adsorbate distributions throughout soil profile. And the proton-donation mechanisms by organic anions having a carboxyl as a functional group can also influence the adsorption of inorganic anions onto the hydroxylated sites of Fe and Al oxides. However, study of competitive adsorption of specifically adsorbed anions illustrates some of difficulties which arise in interpretation of reactions at oxide/aqueous solution interfaces. At least two factors prevented a simple analysis of reactions. First, at any pH value the maximum amount of adsorbate taken up at the surface depends on the identity of the anion. Second, it was necessary to postulate the sorption sites where the anion can be adsorbed. Hence, anions having non-specific adsorption characteristics are less capable for sorption sites, compared to those of specific adsorption characteristics, even though competition complies both ordinary and electrostatic interactions for sorption sites. Therefore, competition among chemical species in soil matrix can be of major significance in determining the effective mobility of any reactive anions with sorption sites.

• 한국토양비료학회지
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• 제48권6호
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• pp.666-670
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• 2015

Competition among anion species in solution for same sorption sites and soil surface can be of major significance in determining the effective mobility of any potentially adsorbing species. Major soil anion species include $OH^-$, $F^-$, $Cl^-$, $HCO_3{^-}$, $CO_3{^-}$, $NO_3{^-}$, $SO_4{^{2-}}$, and $PO_4{^{3-}}$. And some micro nutrients such as boron and molybdenum exist as $H_2BO_3{^-}$ and $MoO_4{^{2-}}$, as do some heavy metals such as chrome and arsenic as $CrO_4{^{2-}}$ and $HAsO_4{^{2-}}$. Pesticides such as 2,4,5-T and 2,4-D also exist as anions. Many anion species are retained by more complex mechanisms than the simple electrostatic attractions involved in most cation adsorption reactions. In binary system composed of two anions, the adsorption of one anion is influenced by the other anion due to the competition for the available and limited binding sites in soil constituents. The specifically adsorbed anions may compete more effectively for sorption sites than that of nonspecifically adsorbed anion. In this study, we aim to evaluate the mathematical models to determine the magnitude of concentration variations in adsorption due to competitive interactions between anions introduced to a system in binary mixtures.

• 한국토양비료학회지
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• 제49권5호
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• pp.541-547
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• 2016

In this experiment we investigated the influence of various anions including oxalic acid encountered as solution phase in soil on the adsorption and desorption of sulfate in Chungwon Bt soil. The effect of chloride and nitrate on the adsorption of sulfate was not significant, suggesting that sulfate was better able to compete for adsorption sites at concentrations studied, in contrast to the large reduction in the amount of chloride adsorbed in the presence of sulfate. The results of competition for sorption sites between sulfate and anion showed that the simultaneous presence of two anions in solution was effective in reduction of competing anion at a maximum value of adsorption, due to the similar adsorption mechanism for anion competition. Therefore, the variation in the buffer power of the acids will produce a change in the strength and amount of adsorption and the competitive ability.

• 대한환경공학회지
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• 제31권9호
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• pp.775-782
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• 2009

PP-g-AA 부직포의 양이온교환기능성 카르복실기(-COOH)를 DETA를 사용하여 화학적 개질반응을 통해 아민기($-NH_2$)를 도입한 음이온교환성 PP-g-AA-Am 부직포를 합성하였다. PP-g-AA-Am 부직포에 대한 회분식 흡착실험을 통하여 흡착등온, 흡착평형 및 공존이온 영향을 살펴보았다. $PO_4$-P의 흡착거동은 Langmuir 흡착등온식에 일치하였으며 흡착에너지는 10.3 kJ/mol로 $PO_4$-P의 흡착과정을 이온교환 반응으로 설명할 수 있었다. 음이온이 같은 몰농도로 혼합된 용액에서 PP-g-AA-Am 부직포의 이온 경쟁력은 $SO_4\;^{2-}$>$PO_4\;^{3-}$>$NO_3\;^-$>$NO_2\;^-$ 순이었다. 또한 PP-g-AA-Am 부직포는 모든 실험에서 이온교환수지인 PA308보다 $PO_4$-P의 흡착능이 우수한 것으로 나타났다.

• 한국환경농학회지
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• 제7권2호
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• pp.96-101
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• 1988

Ionic strength 및 공존(共存) 음(陰)Ion($Cl^-$, $SO^{2-}\;_4$, $ClO^-\;_4$)이 Zeolite에 의(依)한 중금속(重金屬)의 흡착(吸着)에 미치는 영향(影響)을 조사(調査)한 결과(結果)는 다음과 같다. Ionic strength별(別) Zeolite에 의(依)한 Cd, Cu 및 Zn의 흡착등온선(吸着等溫線)은 Freundlich 식(式)에 잘 부합(符合)되었다. Ionic strength가 증가(增加)할수록 중금속(重金屬)의 흡착량(吸着量)은 3종(種)의 서로 다른 음(陰)Ion이 공존(共存)하여도 모두 감소(減少)하는 경향(傾向)이었다. Background salt의 음(陰)Ion 종류별(種類別) 중금속(重金屬) 흡착량(吸着量)은 $ClO^-\;_4>SO^{2-}\;_4>Cl^-$의 순(順)이었으며 흡착평형용액내(吸着平衡溶液內)에서 음(陰)Ion은 Ligand로 작용(作用)하여 중금속(重金屬) Ion들과 Complex를 형성(形成)하는 능력(能力)에 차이(差異)가 있음이 인정(認定)되었다.

• Journal of Microbiology
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• 제44권5호
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• pp.508-514
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• 2006

In this study, the double-stranded DNA-dependent activities of Deinococcus radiodurans RecA protein (Dr RecA) were characterized. The interactions of the Dr RecA protein with double-stranded DNA were determined, especially dsDNA-dependent ATP hydrolysis by the Dr RecA protein and the DNA strand exchange reaction, in which multiple branch points exist on a single RecA protein-DNA complex. A nucleotide cofactor (ATP or dATP ) was required for the Dr RecA protein binding to duplex DNA. In the presence of dATP, the nucleation step in the binding process occurred more rapidly than in the presence of ATP. Salts inhibited the binding of the Dr RecA protein to double-stranded DNA. Double-stranded DNA-dependent ATPase activities showed a different sensitivity to anion species. Glutamate had only a minimal effect on the double-stranded DNA-dependent ATPase activities, up to a concentration of 0.7 M. In the competition experiment for Dr RecA protein binding, the Dr RecA protein manifested a higher affinity to double-stranded DNA than was observed for single-stranded DNA.

• The Korean Journal of Ecology
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• 제17권4호
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• pp.425-434
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• 1994

After two highly weathered soils were treated with glucose, ammonium nitrate, monobasic potassium phosphate and biocides, and incubated for 4 or 6 weeks, adsorption tests were carried out to determine their effect on P adsorption. Glucose addition generally decreased P adsorption. The addition stimulated microbial activity, which might contribure to the reduced adsorption, probably through chelation and anion competition. Consistent endency was not observed with N treatment. Addition of P initially decreased P adsorption, probably through blockage of adsorption sites. Biocides generally decreased adsorption, probably because the microbes that 몬 been killed. Soil 1 with naturally lower levels of C and higher levels of aluminium adsorbed more P than soil 2. These results suggest that in highly weathered soils, which are low in available P and high in exchangeable Al, cultivation techniques which increase soil organic matter will also result in higher levels of plant-available P.

• 대한화학회지
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• 제13권2호
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• pp.121-129
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• 1969

n-Alkylamine hydrochlorides $C_nH_{2n+1}NH_3CI$에서 n=0에서 n=4 까지 이르는 低分子量 同族體의 apparent molal volume {\phi}\nu$ 및 partial molal volume $V^{\circ}$을 30$^{\circ}C$水溶液에서 測定하엿다 아민산의 濃度는 0.01M에서 0.3M까지 , 密度測定은 浮力法(Float method)를 適用하여 少數點 以下 5位까지 取하였다. 實驗結果 同族體의 分子量이 一定量 $CH_2$식 增加함에 따라 $V^{\circ}$값이 規則的인 差로서 增加한다는 事實이 觀測되었다. 또한 濃度增加함에 따른 {\phi}\nu$ 變化는 共通的으로 直選的이고 limiting slope는 positive이며 比較的 理論値에 가까왔다. 共通anion인 鹽素이온 $CI^-$의 partial molal volume, $V^{\circ}$$CI^-$은 18.6ml $mole^{-1}$으로 他硏究者들의 date와 大體的으로 一致하였다. {\phi}{\nu}$ 값의 變化로 보아 이온의 hydrophobic effect와 change effect는 거의 競合狀態이나 charge effect 곧 electrostriction effect가 優勢를 보였다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제22권1호
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• pp.49-58
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• 2017

Biotic ligand model (BLM) and species sensitivity distribution (SSD) were used to determine the site-specific Cu threshold concentration (5% hazardous concentration; HC5) in soil pore water. Model parameters for Cu-BLM were collected for six plants, one collembola, and two earthworms from published literatures. Half maximal effective concentration ($EC_{50}\{Cu^{2+}\}$), expressed as $Cu^{2+}$ activity, was calculated based on activities of major cations and the collected Cu-BLM parameters. The $EC_{50}\{Cu^{2+}\}$ varied from 2 nM to $251{\mu}M$ according to the variation in environmental factors of soil pore water (pH, major cation/anion concentrations) and the type of species. Hazardous activity for 5% (HA5) and HC5 calculated from SSD varied from 0.076 to $0.4{\mu}g/L$ and 0.4 to $83.4{\mu}g/L$, respectively. HA5 and HC5 significantly decreased with the increase in pH in the region with pH less than 7 due to the decrease in competition with $H^+$ and $Cu^{2+}$. In the region with pH more than 7, HC5 increased with the increase in pH due to the formation of complexes of Cu with inorganic ligands. In the presence of dissolved organic carbon (DOC), Cu and DOC form a complex, which decreases $Cu^{2+}$ activity in soil pore water, resulting in up to 292-fold increase in HC5 from 0.48 to $140{\mu}g/L$.