• 대한환경공학회지
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• 제32권3호
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• pp.241-247
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• 2010

오존 접촉 반응기에서 용존 오존 농도 및 페놀 제거에 미치는 운전변수의 영향에 대해 실험실 규모 실험을 수행하였다. 반응기로 가스상 오존이 공급되고 일정한 시간이 경과한 후에 용존 오존 농도는 포화 농도에 도달하였으며 포화 농도의 크기는 운전 변수에 의해 영향을 받는 것으로 나타났다. 수용액내의 오존은 높은 pH 조건에서 불안정하므로 용존 오존 농도는 용액의 초기 pH값이 증가함에 따라 감소하였다. 일정한 유량의 기체가 반응기로 공급되는 조건에서 가스상 오존 농도의 크기는 용존 오존의 포화농도에 중요한 영향을 미치며 일정한 농도의 가스상 오존이 공급될 때 가스 유량은 용존 오존이 포화되는 속도에 영향을 주는 것으로 관찰되었다. 페놀 제거에 미치는 운전변수의 영향은 각 운전변수가 용존 오존 농도에 미치는 영향과 밀접하게 관련되어 있는 것으로 나타났다. 용존 오존은 높은 pH 조건에서 빠르게 분해되어 페놀과의 반응성이 높은 자유라디칼을 생성시키므로 pH가 증가함에 따라 페놀 제거가 향상되었다. 동일한 pH 조건에서 가스상 오존 농도 및 가스 공급량의 증가는 용존 오존을 증가시킴으로써 페놀 분해를 증진시키는 것으로 나타났다. 메탄올의 주입은 OH 라디칼을 소비시켜 페놀 분해를 방해하는 것으로 관찰되었다.

• 한국조명전기설비학회:학술대회논문집
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• 한국조명전기설비학회 2004년도 학술대회 논문집
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• pp.339-342
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• 2004

It is research about special quality of ozone gas concentration and dissolved ozone concentration that show according to change of flow rate when liquefied ozone gas in water. If increase flow rate of ozone gas, ozone concentration increases being proportional and amount to fixed flow rate, dissolved ozone concentration was measured low. When ozone concentration How rate 1000 [ppm], dissolved ozone concentration smelted to flow rate 1.5[Q] for 28 [min] is $0.1740{\sim}0.8020[mg/l]$. Could know that half-life is most short by 3 minutes 8 seconds in flow rate 1.5 [Q]. And ozone smelted 20 minutes later after half-life measurement became disjointing all.

• 대한전기학회:학술대회논문집
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• 대한전기학회 2000년도 하계학술대회 논문집 C
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• pp.2041-2043
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• 2000

Ozone is widely used to sterilize food and tap water because ozone is a strong oxidizer. To date, it has been difficult to dissolve a high concentration of ozone gas in water because the large size of the bubbles limits the contact area between the ozone gas and liquid water. The measurements of dissolved ozone can be used to control water quality and ozone dosage. Therefore the dissolved ozone measurement of most interest is that of residual ozone at the discharge point of a particular treatment chamber.

• 상하수도학회지
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• 제18권5호
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• pp.656-665
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• 2004

An Ozone reaction model combined with CFD(Computational Fluid Dynamics) technique was developed in this research, in the simulation of ozonation, hydrodynamic behavior as well as reaction model is important because ozone is supplied to treated water as gas ozone. In order to evaluate hydrodynamic behavior in an ozone contactor, CFD technique was applied. CFD technique elucidated hydrodynamic behavior in the selected ozone contactor, which consisted of three main chambers. Three back-mixing zones were found in the contactor. The higher velocities of water were observed in the second and third compartments than that in the first compartment. The flow of the opposite direction to the main flow was observed near the water surface. Based on the results of CFD simulation, the ozone contactor was divided into small compartments. Mass balance equations were established were established in each compartment with reaction terms. This reaction model was intended to predict dissolved ozone concentration, especially. We concluded that the model could predict favorably the mass balance of ozone, namely absorption efficiency of gaseous ozone, dissolved ozone concentration and ozone consumption. After establishing the model, we discussed the effect of concentration of gaseous ozone at inlet, temperature and organic compounds on dissolved ozone concentration.

• 한국환경과학회지
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• 제22권8호
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• pp.937-944
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• 2013

Ozone concentrations in water and air, and resulting disinfective properties, were measured following generation by either an ozone generator or a low-temperature dielectric barrier discharge plasma generator. In freshwater, ozone concentrations of 0.81 and 0.48 mg/L $O_3$ were observed after the ozone and plasma generators had been operated for five minutes, respectively. Higher levels of dissolved $O_3$ were attained more easily with the ozone generator. In seawater, both systems were capable of creating concentrations greater than 3.00 mg/L $O_3$ after 5minutes of operation. Higher ozone levels were attained more easily in seawater than in freshwater. Rates of bacterial sterilization in seawater after three minutes were 96% and 88%, using the plasma and ozone generators, respectively. In freshwater, higher concentrations of ozone were released into the atmosphere by the ozone generator than by the plasma generator. In creating equivalent levels of dissolved ozone in freshwater, the plasma generator released 4.5 times more ozone into the atmosphere than did the ozone generator. This shows that ozone generators are more effective than plasma generators for creating ozonated water. For the same concentration of dissolved ozone in seawater, more ozone was released into the atmosphere using the ozone generator than using the plasma generator. Therefore, with regard to air pollution, plasma generators seem to be less expensive than ozone generators.

• 상하수도학회지
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• 제18권2호
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• pp.215-221
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• 2004

Effluent of wastewater treatment plant is to be disinfected to protect drinking water sources. DOF (Dissolved Ozone Flotation) was developed to meet this purpose. DOF was developed by combining DAF system with ozone. DAF system has good floating power with numerous microbubbles, and ozone has strong oxidation capability. And DOF system has good floating power and strong oxidation capability simultaneously. When DOF was applied to secondary wastewater effluent, color of 11CU in raw water which was secondary effluent was reduced to 1CU by the DOF system. Removal rate of other water quality parameters treated by DOF were also higher than that by DAF, which were proved the strength of oxidation capability of ozone. When ozone concentration of 3.3mg/l were applied in DOF system, general aerobic bacteria were reduced to 5CFU/ml from TNTC (Too many Numbers To Count). With the same ozone concentration, total coliform were not detected at all. These figures are under the numbers of drinking water regulation. These microbes were the target parameters of DOF. It was proved that DOF was very effective in disinfection of wastewater treatment plant effluent as well as in removal of color, turbidity, and T-P.

• 한국환경과학회지
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• 제8권6호
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• pp.725-730
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• 1999

The advanced oxidation process (AOP) using ozone combined with hydrogen peroxide and ultraviolet treatment were evaluated for biodegradable dissolved organic carbon (EDOC) formation and dissolved organic carbon (DOC) removal. Oxidation treatment were conducted alone or combination with ozone, hydrogen peroxide and ultraviolet processes. Ozone dosage of ozone process was varied from $0.5mg/l{\ell}\cdot}min$ to $5mg/{\ell}{\cdot}min$. Ozone/hydrogen peroxide process was done using $20mg/{\ell}{\cdot}min$ of hydrogen peroxide concentration. Ozone/ultraviolet process was irradiated with $12mW/cm^2$ of density and 254nm. Ozone dosage was varied from $0.5mg/{\ell}{\cdot}min$ to $5mg/{\ell}{\cdot}min$ at the ozone/hydrogen peroxide and ozone/ultraviolet processes too. Contact time of all the process was 20 minutes. Oxidation treatment were performed on microfiltration effluent samples. BDOC formation was reached to an optimum at ozone dosage of $1.5mg/{\ell}{\cdot}min$ in the ozone/hydrogen peroxide process and $1mg/{\ell}{\cdot}min$ in ozone/ultraviolet process, after which BDOC formation was decreased at higher ozone dosages. But BDOC formation was increased with ozone dosages increasing in ozone process. The efficiency of DOC removal was higher AOPs than ozone process. Ozone/ultraviolet proces was the highest for DOC removal efficiency in each process. THMFP. removal efficiency by ozone/ultraviolet process was higher than that by each of ozone process and ozone/hydrogen peroxide process.

• Environmental Engineering Research
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• 제16권2호
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• pp.97-102
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• 2011

This study investigates the treatment of pigment wastewater using a sequential batch reactor (SBR) followed by dissolved ozone flotation-pressurized ozone oxidation treatement (DOF-$PO_2$). The process efficiency has been evaluated at the lab scale on the basis of water quality parameters. In addition, the effect of pure oxygen and air was investigated on the removal of COD, BOD, and TN in the SBR process. It was observed that under comparable conditions the removal efficiencies of these water quality parameters using pure oxygen and air were similar. The effect of the recycle rate was also investigated for its impact on the water quality parameters using different ozone dissolving pressures in a DOF process in order to optimise conditions. The results conclude that the use of an SBR and ozone contact by DOF-$PO_2$ is a highly effective treatment for pigment wastewater and aids in the achievement of effluent discharge criteria.

• 한국환경보건학회지
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• 제19권4호
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• pp.44-50
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• 1993

This paper has concentrated on estimating the improvement of sludge dewaterability for the application of ozone in sewage treatment plant sludge. The experiment for the study was conducted by batch reactor, contacting ozone (5.0 g O$_3$/hr/l) to waste sludge and measured the Specific Resistance to Filtrate (SRF) varying pH, pressure and reaction time of ozone. And then checked the dissolved solids concentration of flitrate. The results of experiment were as follows: 1. When the total solids concentration of excess sludge was 9, 000 mg/l, the optimum injection rate of ozone was 5.0 g O$_3$/hr/l, and then pressure was 50 cm Hg for the measuring SRF. 2. In the range of pH 3~5, the effect of ozone injection was excellent, but it was unsatisfactory in the range of pH 9~11. Therefore, the ozone injection by acidifying pH level was effective in improving the dewaterability of sludge. 3. It was estimated that the dissolved solids concentration of flitrate was increased in proportion to the injection rate of ozone.

• 대한환경공학회지
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• 제30권7호
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• pp.743-750
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• 2008

본 연구에서는 용존오존부상법(Dissolved Ozone Flotation; DOF)을 이용한 정수처리 효과를 파악하기 위하여 적정 오존 주입 농도와 오존 주입 농도별 처리 특성에 대해서 연구하였으며, 또한 용존공기부상법(Dissolved Air Flotation; DAF) 및 중력식 침전법(Conventional Gravity Sedimentation; CGS)과 DOF의 처리 성능을 비교하였다. 최적 오존 주입 농도를 산정하기 위한 실험에서 최적 오존 주입농도는 2.7 mg/L로 나타났으며, 오존 주입 농도가 증가할수록 탁도 및 KMnO$_4$ 소모량, UV$_{254}$ 흡수도, TOC 등과 같은 제거효율이 낮아지는 것으로 나타났다. DOF와 DAF, CGS의 처리성능을 비교한 결과 오존 주입 농도 2.7 mg/L로 운전한 DOF시스템의 탁도 제거효율은 88.9%, 유기물질 항목의 경우 KMnO$_4$ 소모량은 62.9%, TOC 47%, 그리고 UV$_{254}$ 흡수도 77.3% 그리고 THMFP 제거율의 경우 51.6%로 다른 두 공정보다 높거나 비슷하게 나타났다. 따라서 응집 부상 공정과 오존 산화 공정이 하나의 반응기에서 일어나는 DOF 시스템은 정수처리시설의 소유부지 감소와 기존 CGS 시스템에서 처리가 어려운 조류 및 용존성 유기물질의 제거를 통해 소독부산물의 생성을 감소시킴으로 향후 고도정수처리시스템으로 적용 가능성이 충분한 것으로 판단된다.