• 분석과학
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• 제13권5호
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• pp.652-658
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• 2000

오존 분자와의 직접반응경로 및 OH라디칼을 통한 간접반응경로를 통한 부식산의 분해특성을 TOC, $UV_{254}$ 그리고 오존 소모량의 변화를 통해 살펴보았다. 부식산의 분해를 위한 반응시스템은 오존 단독 처리 외에 OH라디칼의 생성조건을 조사하기위해 pH를 5에서 염기성 영역인 9까지 변화시켰으며, OH라디칼 생성 촉진제인 $H_2O_2$를 5-15 mg/L의 농도로, 그리고 OH라디칼 소거제로서 작용하는 $HCO_3{^-}$는 20-100 mg/L로 변화시키면서 처리하였다. 각 반응 조건에 따른 부식만의 분해특성을 살펴본 결과, TOC 제거율은 주로 0H라디칼에 의한 간접반응의 영향을 받았으며, $UV_{254}$ 감소율은 주로 오존분자와의 직접반응에 의해 효율이 결정되는 반응 경로를 거치는 것으로 나타났다. 또한 오존소모량은 주로 용액의 pH, alkalinity 변화에 따른 영향을 많이 받았다.

• Environmental Engineering Research
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• 제10권3호
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• pp.144-154
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• 2005

The use of ozone gained acceptance in the production of ultrapure water because of its powerful oxidizing ability. Ozone is currently used to deactivate microorganisms and remove organic contaminants. However, interest also exists in using radical species, which arc stronger oxidants than ozone, in such processes. One means of producing radical species is by corona discharge. This work investigates the use of a novel pulseless corona-discharge system for the removal of organic substances in ultrapure water production. The method combines corona discharge with electrohydrodynamic spraying of oxygen, forming microbubbles. Experimental results show that pulseless corona discharge effectively removes organics, such as phenol and methylene blue, in deionized water. The corona-discharge method is demonstrated to be comparable to the direct use of ozone at a high-applied voltage. The results also show that a minimum applied voltage exists for operation of the corona-discharge method. In this work, the minimum applied voltage is approximately 4.5 kV. The kinetic rate or phenol degradation in the reactor is modeled. Modeling results show that the dominant species of the pulseless corona-discharge reactor are hydroxyl radical and aqueous electron. Several radical species produced in the pulseless corona-discharge process are identified experimentally. The. major species are hydroxyl radical, atomic hydrogen species, and ozone.

• 한국환경보건학회지
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• 제27권1호
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• pp.1-7
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• 2001

Ammonia is used in the manufacture of fertilizers, refrigerants, stabilizers and many household cleaning agents. These wide applications resulted in ammonia contamination in water. Ammonia can be removed from water by physical, biological, and chemical methods. Ozonation is effictive in the treatment of water with low concentration of ammonia. This study is undertaken to provide kinetic data for the ozonation of ammonia with or without hydrogen peroxide. The results were as follows; The destruction rate of ammonia increased gradually with the influent hydrogen peroxide concentration up to 0.23 mM and inhibited in the range of 0.23~11.4mM, and the maximum removal rate of ammonia achieved at 0.23mM of hydrogen peroxide, and the overall kinetics was first order. The combination effect of hydrogen and ozone to oxide ammonia in aqueous solution was better than ozone alone. The reacted ammonia was converted completely to nitrate ion.

• 한국염색가공학회지
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• 제23권2호
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• pp.100-106
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• 2011

UV-curable water-repellent finish was carried out to impart one-side repellency to the PET fabrics using a formulation of a UV-active fluorocarbon agent and a water soluble photoinitiator. The aqueous formulation was padded on the PET fabrics and it was subsequently UV-cured. The unirradiated side of the cured fabrics was made to wetteable to water by the prolonged UV/ozone irradiation. The influence of photoinitiator concentration, agent concentration and UV energy for photodegradation on the performance of the finished fabrics were investigated. The difference in the functional property of front and back sides was examined by measuring water repellency at each side of the treated fabrics, which resulted in four rating difference between two-side. The UV-cured and photodegraded PET surfaces were characterized by ATR, ESCA and FE-SEM.

• 한국물환경학회지
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• 제20권3호
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• pp.251-255
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• 2004

Laboratory experiments were performed to investigate oxidation system using ozone and hydrogen peroxide for treating water contaminated with phenol. We were able to greatly improve the oxidation efficiency of the aqueous phenol using hydrogen peroxide and ozone. Two methods were compared and analyzed in this study. In the consequence through the methods, we concluded that the $O_3/UV$ is superior to the hydrogen the results. The decomposition efficiency of aqueous phenol by $H_2O_2$. was exceeded at 83.3% in the concentration of phenol, 5, 15, 25 ppm, respectively. The rate of decomposition reaction by $H_2O_2$. was very slow. In the occasion of the fractional life, it was determined the value that $1.61{\times}10^{-5}(l/mol)^{1.172}sec^{-1}$, $3.75{\times}10^{-5}(l/mol)^{0.792}sec^{-1}$, $4.11{\times}10^{-5}(l/mol)^{1.782}sec^{-1}$. The rate of decomposition reaction of aqueous phenol by $O_3$ was fast compared to the $H_2O_2$. We concluded that the $O_3$ method is useful with the consideration of the reaction time 30 minutes. In the occasion of the fractional life, it was determined the value that $1.094{\times}10^{-4}(l/mol)^{0.933}sec^{-1}$, $2.1{\times}10^{-4}(l/mol)^{0.842}sec^{-1}$, $7.22{\times}10^{-4}(l/mol)^{1.332}sec^{-1}$.

• 상하수도학회지
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• 제31권6호
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• pp.481-490
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• 2017

Water and wastewater treatment has always been a challenging task due to the continuous increase in amount and the change in characteristics of the poorly biodegradable and highly colored organic matters, as well as harmful micro-organisms. Advanced techniques are therefore required to successfully remove these pollutants from water before reuse or discharge to receiving water bodies. Application of ozone, which is a powerful oxidant and disinfectant, alone or as part of advanced oxidation process depends on the complex kinetic reactions and the mass transfer of ozone involved. Micro- and nano bubbling considerably improves gas dissolution compared to conventional bubbles and hence mass transfer. It can also intensify generation of hydroxyl radical due to collapse of the bubbles, which in turn facilitates oxidation reaction under both alkaline as well as acidic conditions. This review gives the overview of application of micro- and nano bubble ozonation for purification of water and wastewater. The drawbacks of previously considered techniques and the application of the hydrodynamic ozonation to synthetic aqueous solutions and various industrial wastewaters are systematically reviewed.

• 분석과학
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• 제13권5호
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• pp.659-665
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• 2000

Ozone/high pH, Ozone/$H_2O_2$ 공정 및 OH라디칼 scavenging 조건인 알칼리도가 존재하는 공정에서의 오존처러 후 생성되는 과산화수소의 농도와 $UV_{254}$ 감소율의 변화를 통하여 유기물의 분해 특성을 조사하였다. 부식산의 농도, 초기 pH 및 과산화수소와 알칼리도의 농도 등을 변화시키면서 생성되는 과산화수소의 농도와 $UV_{254}$ 감소율을 측정하였다. 그 결과, 수중 부식산의 오존처리시 부식산과 오존과의 반응에 의한 과산화수소의 생성과 부식산의 분해에 따른 $UV_{254}$의 감소는 서로 다를 반응경로를 거치는 것을 확인 하였다. 생성되는 과산화수소의 농도는 용존 오존분자의 안정성이 높은 산성조건에서 높게 나타났다. 반면, $UV_{254}$의 감소율은 강알칼리성 용액이나 $H_2O_2$가 투여된 경우, 즉 ${\cdot}OH$, ${\cdot}HO_2$와 같은 라디칼이 많이 형성되는 조건에서 높았다. 이러한 결과는 부식산의 오존처리 과정에서 생성되는 과산화수소의 농도가 용존 오존분자의 직접반응에 주로 의존하는 반면, $UV_{254}$의 감소율은 오존분자의 직접반응과 더불어 라디칼과의 간접반응에 영향을 받음을 나타낸다.

• 한국전기전자재료학회:학술대회논문집
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• 한국전기전자재료학회 2003년도 하계학술대회 논문집 Vol.4 No.2
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• pp.795-798
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• 2003

Toxic organics are of great environmental concern primarily because they are toxic to mammals and birds, and are relatively soluble in water to contaminate surface water and groundwater. In this study, the decomposition of phenol, a widely used organic, in aqueous solutions by Boron doped diamond(BDD) electrode was examined. Thin, Boron-doped conducting diamond films are expected to be excellent electrodes for industrial electrolysis. Boron-doped diamond (BDD) were used as anode for generating ozone gas by electrolysis of acid solution. In this work. we have studied ozone generating system using BDD electrode. In order to determine the ozone generation properties of diamond electrode, experimental conditions, electrolyte concentration, temperature, flow rate and reaction time were varied diversely. As a result, we could confirm that ozone gas was generated successfully and the performance of diamond electrode was stable for electrolyte while $PbO_2$ electrode was disintegrated. Actually we are found that ozone amount increased by lowering the temperature of electrolyte. Decomposition of phenol concentration in the reaction solution by photolytic ozonation( $UV/O_3$) was analyzed by HPLC epuipped with a UV detector.

• 폴리머
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• 제38권3호
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• pp.391-396
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• 2014

고분자 마이크로니들은 몰딩 공정으로 쉽고 저렴하게 생산할 수 있지만 3차원 고분자 마이크로 구조체에 수용액 기반의 약물 코팅은 어려움이 있다. 2차원 형태의 평면 금속 마이크로니들에 약물을 코팅한 기존의 코팅 마이크로니들과 비교하여 볼 때 3차원 구조의 고분자 마이크로니들은 코팅 면적이 2배 넓고 단위면적당 마이크로니들의 수를 크게 증가시킴으로써 두 배 이상의 약물을 경피를 통해 전달할 수 있다. 증점제와 계면활성제 첨가 방법의 경우 2차원의 평면에는 균일한 코팅을 얻을 수 있었지만 3차원 구조의 고분자 마이크로니들 표면에서는 만족할 코팅을 얻지 못했다. 하지만, 고분자 마이크로니들 표면을 금속 코팅 혹은 UV/ozone으로 처리한 경우 3차원의 마이크로 니들 표면에 만족할 코팅을 얻을 수 있었으나 금속 코팅의 경우 피부에 찌르고 제거하는 과정에서 금속이 피부 안에 남는 안전성 문제가 있어 UV/ozone을 최종 표면 처리 방법으로 선정하였다. 이렇게 처리한 고분자 마이크로니들 표면에 calcein이 첨가된 코팅물질로 코팅된 마이크로니들은 15분 이상의 피부 투여로 코팅물질을 성공적으로 진피층까지 전달할 수 있었다.

• 한국응용과학기술학회지
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• 제16권3호
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• pp.237-240
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• 1999

This study showed that the optimized cleaning process using non-aqueous cleaning solvents is adaptable in the industrial field for existing 1.1.1-TCE cleaning solvents which is an ozone depleting sustance. Alternative cleaning solvent system substituted for existing cleaning solvent against non-aqueous pollutants(cutting & flux oil), was evaluated for the cleaning efficiency using gravimetric analysis method and surface change of sample by Image analyzer. The results showed that alternative solvents and process had excellent cleaning efficiency.