• Bulletin of the Korean Chemical Society
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• 제32권8호
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• pp.2820-2822
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• 2011

• 한국환경보건학회지
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• 제32권6호
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• pp.578-584
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• 2006

This research was conducted to estimate the effect of C/N ratio control on composting of TNT (2,4,6 trinitrotoluene)-contaminated soil. Glucose or acetone was selected to control C/N ratio of the contaminated soil. The C/N ratios of the controlled experiment and no controlled one were 26.0 and 6.6, respectively. During 45days, the degradation efficiency (96.0 or 91.8%) of acetone or glucose C/N ratio controlled soil was higher than that (78.4%) of no C/N ratio controlled case. The first order degradation rate constant of glucose or acetone C/N ratio control was 0.0641 or 0.0820/day. This constant was over twice 0.0356/day of no C/N ratio control. The C/N ratio control with glucose or acetone also showed a rather high $CO_2$ evolution than that without C/N ratio control. It was proven that C/N ratio control for composting of TNT-contaminated soil improved the treatment efficiency.

• 미생물학회지
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• 제39권4호
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• pp.223-229
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• 2003

2,4,6-Trinitrotoluene (TNT)을 분해할 수 있는 Stenotrophomonas sp. OK-5에서 분리한 NAD(P)H-nitroreductase의 특성을 조사하였다. 먼저 ammonium sulfate precipitation, DEAE-sepharose, 그리고 Q-sepharose 등의 일련의 정제 과정을 통하여 NAD(P)H-nitroreductase을 분리정제하였다. 분취기로부터 얻어진 시료로부터 NAD(P)H-nitroreductase의 효소활성을 가지는 3개의 다른 fractions (I, II 및 III)이 탐침되었다. NAD(P)H-nitroreductase의 fractions I, II, 그리고 III의 비활성(specific activity)은 각각 5.06 unit/mg, 4.95 unit/mg, and 4.86 unit/mg이었으며, crude extract와 비교하여 각각 10.5배, 9.8배, 8.9배 이상 농축되었다. 이 실험에서 이들 3개의 fractions 가운데, fraction I이 가장 높은 비활성을 나타내었다. NAD(P)H-nitroreductase (fractions I, II 및 III)의 효소활성에 영향을 미치는 몇 가지 요인을 조사하였다. 모든 NAD(P)H-nitroreductase (fractions I, II 및 III)의 최적 온도는 30$^{\circ}C$이었으며, 최적 pH는 약 7.5이었다. 4Ag^+, Cu_2^+, Hg_2^+$ 등의 금속이온은 약 80%의 효소활성을 저해하였으나, $Mn_2^+ 이나 Ca_2^+$의 첨가 시에는 약 30~40% 정도의 활성이 감소되었다. 그러나 $Fe_3^+$은 이들 효소의 활성을 증진시켰다. SDS-PAGE에 의해 측정된 NAD(P)H-nitroreductase의 fractions I, II 및 III의 분자량은 모두 약 27 kDa임이 확인되었다.

• 한국지구물리탐사학회:학술대회논문집
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• 한국지구물리탐사학회 2003년도 Proceedings of the international symposium on the fusion technology
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• pp.493-500
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• 2003

The effect of reductive treatment with elemental iron on the extent of mineralization by Fenton oxidation was studied for the explosive 2,4,6-trinitrotoluene (TNT) and hexahydro-l,3,5-trinitro-l,3,5-triazine (RDX) using a completely-stirred tank reactor (CSTR). The results support the hypothesis that TNT and RDX are reduced with elemental iron to products that are oxidized more rapidly and completely by Fenton's reagent. Iron pretreatment enhanced the extent of TOC removal by approximately $20\%\;and\;60\%$ for TNT and RDX, respectively. Complete TOC removal was achieved for TNT and RDX solutions with iron pretreatment under optimal conditions. On the other hand, without iron pretreatment, complete mineralization of TNT and RDX solutions were not achieved even with much higher $H_2O_2$ and $Fe^{2+}$ concentrations. The bench-scale iron treatment-Fenton oxidation integrated system showed more than $95\%$ TOC removal for TNT and RDX solutions under optimal conditions. The proposed zero-valent iron-Fenton process was evaluated with pink water from the Iowa Army ammunition plant. Results from batch and column experiments show that TNT, RDX, and octahydro-l,3,5,7-tetranitro-l,3,5,7-tetrazocine (HMX) were completely removed from the pink water and that triaminotoluene (TAT) and ${NH_4}^+$ were recovered as products in reduction with zero-valent iron. By using an integrated system, $83.3\pm4.2\%$ of TOC was removed in a CSTR with 10 mM of $Fe^{2+}$ and 50 mM of $H_2O_2$. These results suggest that the reduction products of TNT and RDX are more rapidly and completely mineralized by Fenton oxidation and that a sequential iron treatment-Fenton oxidation process may be a viable technology for pink water treatment.

• 한국지하수토양환경학회:학술대회논문집
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• 한국지하수토양환경학회 2000년도 창립총회 및 춘계학술발표회
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• pp.52-55
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• 2000

The effects of environmental conditions, initial dissolved oxygen concentrations, pH, and the presence of electron carrier vitamin B$_{12}$ , on the reduction rate of TNT by Fe$^{0}$ was Quantitatively analyzed using a batch reactor. In all experiments, TNT reduction was best described with a first order reaction and the reduction rate decreased with the increase in the initial DO concentration. However, the specific reaction rate did not decrease linearly with the increase in the initial DO concentration. In the presence of HEPES buffer 0.2 and 2.0 mM(pH 5.7$\pm$0.2), the specific reaction rate increased more than 5.8 times, which showed reduction rate is rather significantly influenced by the pH of the solution. To test the possibility of reaction rate enhancement, well-known electron carrier(or mediator), vitamin B$_{12}$ has augmented besides Fe$^{0}$ . In the presence of 8.0 $\mu\textrm{g}$/L of vitamin B$_{12}$ , the specific reaction rate increased as much as 14.6 times. The results indicate that the addition of trace amount of vitamin B$_{12}$ can be a promising rate controlling option for the removal of organics using a Fe$^{0}$ filled permeable reactive barrier.

• 한국지하수토양환경학회지:지하수토양환경
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• 제20권6호
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• pp.133-139
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• 2015

Attention to munitions constituents such as 2,4,6-trinitrotoluene (TNT) and hexahydro-1,3,5-trinitro-1,3,5-triazine (RDX) in the firing ranges is increasing due to their toxicity and high mobility to the environment. It is helpful to use a systemic model to predict the amount of contaminants for the establishment of environmental management of firing ranges. This study employed Training Range Environmental Evaluation and Characterization System (TREECS) program to estimate the mobility characteristics of TNT and RDX via groundwater leaching, soil erosion and surface water runoff. The prediction results of the TNT and RDX migration with TREECS showed that 68% of initial TNT and 21% of initial RDX were discharged through the soil erosion and the 20% of initial TNT and 54% of initial RDX ran out the firing range via the groundwater leaching. The rest of the initial TNT and RDX moved to adjacent surface water via surface runoff. The data suggest that soil erosion and surface runoff occupying 80% of TNT to the total amount are important migration pathways. On the other hand, groundwater leachning occupying 54% to the total amount was also important pathway for RDX.

• 한국환경보건학회:학술대회논문집
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• 한국환경보건학회 2003년도 Challenges and Achievements in Environmental Health
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• pp.199-203
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• 2003

This study was carried out to investigate the removal of 2,4,6-trinitrotoluene, nutrients such as nitrogen, phosphorous compounds in the wetland microcosms. Microcosm study indicated that TNT nutrients were more lastly reduced in the anaerobic condition. The major reductive transformation products included 2,4diamino-6-nitrotoluene (2,4-DANT) 2,6diamino-4-nitrotoluene (2,6-DANT) 4diamino-2,6-nitrotoluene (4-ADNT) 2diamino-4,6-nitrotoluene (2-ADNT). The experimental results for nitrogen removal showed that denitrification kom NO$\sub$3//$\^$-/ to NH$_3$ was dominant process at the bottom of marsh, but nitrification from NH$_3$ to NO$\sub$3//$\^$-/ was dominant on the top of marsh.

• 한국지하수토양환경학회지:지하수토양환경
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• 제20권6호
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• pp.28-36
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• 2015

Simultaneous mobility reduction of explosives and heavy metals in an operational range by monopotassium phosphate (MKP) and bentonite spreading technology was investigated. Potassium ion and phosphate ion in MKP act as explosives sorption enhancer and insoluble heavy metal phosphate formation, respectively, while bentonite acts as the explosives adsorbent. Then, the decrease in surface water concentration of the pollutants and resulting risk reduction for local residents of the operational range, by MKP/bentonite application was estimated. Under untreated scenario, the noncancer hazard index (HI) exceeded unity on February, July and August, mainly due to 2,4,6-trinitrotoluene (TNT); however, MKP/bentonite treatment was expected to lower the noncancer hazard index by decreasing the surface water concentration of explosives and heavy metals (especially TNT). For example, on July, estimated surface water concentration and HI of TNT were 0.01 mg/L and 1.1, respectively, meanwhile the sorption coefficient of TNT was 3.9 mg¹⁻ⁿkg⁻¹Lⁿ. However, by MKP/bentonite treatment, the TNT sorption coefficient increased to 113.8 mg¹⁻ⁿkg⁻¹Lⁿ and the surface water concentration and HI decreased to about 0.002 mg/L and 0.2, respectively. Based on the result, it can be concluded that MKP/bentonite spreading is a benign technology that can mitigate the risk posed by the pollutants migration from operational ranges.

• 한국지하수토양환경학회지:지하수토양환경
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• 제14권6호
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• pp.35-44
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• 2009

나프탈렌과 TNT는 미국 환경청(U.S. EPA)에서 규정한 발암가능성 물질로(Group C), 환경으로 방출될 경우 수생태계와 인체에 심각한 영향을 주는 것으로 알려져 있다. 그러나 지하수 내 두 물질의 미량 분석법에 대한 기존연구는 매우 미비한 실정이다. 이에 본 연구에서는 HPLC-FLD(Fluorescence etector)와 MSD(Mass detector)를 이용한 지하수 내 나프탈렌 및 TNT의 미량분석법을 개발하여, MDL과 LOQ 및 이온영향을 조사하고, 현재 사용되고 있는 HPLC-UV 분석법과 비교 평가하였다. 나프탈렌의 경우, 3D-Fluorescence를 통하여 확인된 최고의 파장(Ex: 270 nM, Em: 330 nM)이 HPLC-FLD에 적용되었고, $0.3\;{\mu}g/L$의 MDL과 $2.0\;{\mu}g/L$의 LOQ가 획득되었다. 이는 현재 방법(HPLC-UV; MDL: $23.3\;{\mu}g/L$, LOQ: $163.1\;{\mu}g/L$)보다 약 80배 우수한 결과이며, U.S. EPA의 음용수 권고기준($700\;{\mu}g/L$)의 약 350배 이하까지 정량분석이 가능한 수치이다. TNT의 경우, 새롭게 제시된 HPLC-MSD로 측정한 방법(MDL: $0.13\;{\mu}g/L$, LOQ: $0.88\;{\mu}g/L$)이 HPLC-UV(MDL: $16.8\;{\mu}g/L$, LOQ: $117.5\;{\mu}g/L$ at 230 nM)보다 약 130 배 우수한 것으로 조사되었고, U.S. EPA의 음용수 권고기준($20\;{\mu}g/L$)보다 약 23배 낮은 농도까지 정량분석이 가능한 것을 확인하였다. 또한 HPLC-UV(230 nM)의 분석법은 ${NO_3}^-$ 농도가 증가할수록(특히 21 mg/L 이상) 크로마토그램의 기준선이 증가하여 정량에 방해를 주었으나, HPLC-MSD 분석법은 국내 지하수 평균 농도보다 약 3.5배인 63.7 mg/L에서도 분석의 영향 없이 안정한 크로마토그램을 보여주었다. 따라서 새롭게 제시된 HPLC-FLD와 MSD에의한 나프탈렌과 TNT 분석법은 지하수 및 음용수 미량분석에 적합하며, 관련분야 연구에 크게 도움이 될 것이다.

• 한국지하수토양환경학회지:지하수토양환경
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• 제20권6호
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• pp.103-110
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• 2015

Nitro-aromatic Compounds (NACs) of explosives are structurally non-degradable materials that have an adverse effect to humans and ecosystems in case of emissions in natural due to the strong toxicity. In this study, batch test in the laboratory-scale has been conducted to find some process parameters of alkaline hydrolysis by considering the characteristics of NACs which are unstable in a base status and field application evaluation have been performed on the batch test results. Based on the experimental results of both laboratory and pilot-scale test, the optimum conditions of parameters for the alkaline hydrolysis of soils contaminated with explosives were pH 12.5, above the solid-liquid ratio 1 : 3, above the room temperature and 30 minute reaction time. In these four process parameters, the most important influencing factor was pH, and the condition of above pH 12.0 was necessary for high contaminated soils (more than 60 mg/kg). In the case of above pH 12.5, the efficiency of alkaline hydrolysis was very high regardless of the concentrations of contaminated soils. At pH 11.5, the removal efficiency of TNT was increased from 76.5% to 97.5% when the temperature in reactor was elevated from room temperature to 80℃. This result shows that it is possible to operate the alkaline hydrolysis at even pH 11.5 due to increased reaction rate depending on temperature adjustment. The results found in above experiments will be able to be used in alkaline hydrolysis for process improvement considering the economy.