• 한국환경과학회지
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• 제4권5호
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• pp.501-508
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• 1995

Reuse of industrial effluents through the cooling systems in a petrochemical complex was described. The partial oxidation of the effluents from the biological treatment plant was examined, using Fenton's reagent as a pretreatment step prior to a next treatment of the effluents. Next tertiary treatment using fixed-film reactor resulted in marked reductions in COD and suspended solids. The continuous fixed-film process with Fenton oxidation pretreatment showed a 23% increase in the COD removal efficiency when compared to that without pretreatment of Fenton oxidation under the volumetric organic loading rate of 0.1 kg COD/m3/day. The Fenton oxidation treatment seemed to be a possible method for tertiary biological treatment to reduce the residual toxicity with the enhanced biodegradation of the effluents.

• Environmental Engineering Research
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• 제15권1호
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• pp.3-7
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• 2010

To better understand the ecology of tetrade forming organisms (TFOs) floating in a large amount of dairy wastewater treatment plant (WWTP) effluent (sequencing batch reactor [SBR]) during the inefficient phosphorus (P) removal process of an enhanced biological P removal system, the TFOs from the effluent of a full scale WWTP were separated and attempts made to culture the TFOs in presence/absence of oxygen. The intact TFOs only grew aerobically in the form of unicellular short-rods. Furthermore, to identify the intact TFOs and unicellular short-rods the DNAs of both were extracted, analyzed using their denaturing gradient gel electrophoresis (DGGE)-profiles and then sequenced. The TFOs and unicellular short-rods exhibited the same banding pattern in their DGGE-profiles, and those sequencing data resulted in their identification as Acinetobacter sp. The intact TFOs appeared in clumps and packages of tetrade cells, and were identified as Acinetobacter sp., which are known as strict aerobes and efficient P-removers. The thick layer of extracellular polymeric substance surrounding Acinetobacter sp. may inhibit phosphate uptake, and the cell morphology of TFOs might subsequently be connected with their survival strategy under the anaerobic regime of the SBR system.

• KSBB Journal
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• 제14권1호
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• pp.119-123
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• 1999

Polyester 감량폐수의 주성분 중 물리.화학적 처리가 어려운 EG를 생물학적으로 처리하기 위하여 jet-loop reactor를 사용하였다 Jet-loop reactor의 산소전달계수는 air-lift reactor와 비교하여 훨씬 컸다. 합성 polyester 감량폐수를 사용하여 부하율 2.64 $kgCOD_{Mn}/m^3$.day, 3.07$kgCOD_{Cr}/m^3$.day로 처리한 경우 유출수의 농도는 154 $mgCOD_{Mn}/L$, 156$mgCOD_{Mn}/L$이었으며, 이 때 각각 93, 93.9%의 제거율을 나타내었다. $COD_{Mn}$의 비부하 속도가 0.25에서 1.72$kgCOD_{Mn}/kgMLVSS$.day로 증가 함에 따라 비기질제거 속도는 0.25에서 1.60$kgCOD_{Mn}-removed/kgMLVSS$.day로 선형적으로 증가하였다. 그리고, 동력학적 계수 Y는 0.78,$K_d$는 0.1$day^{-1}$, $K_s$는 89mg/L는 k는 0.05$hr^{-1}$이었다. 실제 polyester 감량폐수를 사용하여 부하율 2.64$kgCOD_{Mn}/m^3$.day,5.24$kgCOD_{Cr}/m^3$.day로 처리한 경우 유출수의 농도는 150$kgCOD_{Mn}/L$, 3.6$kgCOD_{Cr}/L$이었으며, 이때 각각 93.2,93%의 제거울을 나타내었다.

• 한국환경과학회지
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• 제8권1호
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• pp.107-113
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• 1999

A new biological nutrient removal system combining $A^2/O$ process with fixed film was developed in this work and the characteristics of denitrification were especially investigated in the combined fixed film reactor(CFFR). Media was added in the anaerobic, anoxic and aerobic reactors, respectively. Tests were made to establish the effluent level of $NO_x-N$, COD, DO and nitrite effects on $NO_x-N$ removal in the CFFR by decreasing hydraulic retention time (HRT) from 10.0 to 3.5 hours and by increasing internal recycle ratio form 0% to 200%. The influent was synthesized to levels similar to the average influent of municipal wastewater treatment plants in Korea. SARAN media with a porosity of 96.3% was packed 40% / 130% / 25% based on its reactor volume, respectively. It was found that COD rarely limited dentrification in the anoxic reactor because of high $C/NO_x/-N$ ratio in the anoxic reactor, while DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent inhibited denitrification in the anoxic reactor. It was proved that the critical points of DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent were 0.15mg/L and 10%, respectively. As the internal recycle ratio increased, DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent increased. Especially, at the condition of internal recycle ratio, 200%, DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent exceeded the critical points of 0.15mg/L and 10%, respectively. Then, denitrification efficiency considerably decreased. Consequently, it was represented that the control of DO concentration in the anoxic reactor and $NO_2-N/NO_x/-N$ from the aerobic effluent can assure effective denitrification.

• 한국환경과학회지
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• 제11권6호
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• pp.569-576
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• 2002

Anaerobic/aerobic reactor system was used to treat a synthetic wastewater with glucose as carbon sources(0.38~2.29 kg COD/m3.day) and Acid Red 14(1.05 "24.00 g Acid Red 141m3.day, color degree of 570 ~ 1710). COD removal efficiency by the anaerobic stage in operation period were above 90 % organic loading rate of 0.38 ~ 2.29 kg COD/m3.day(except, adaptation period) and the removal efficiency of the whole system were above 96 %. The decolorization of the Acid Red 14 was through the alteration of the dye structure(or cleavage of the Azo bond) during the anaerobic treatment. In the A/A system, the anaerobic stage played an essential role in removing both color and COD. In addition it also improves biodegradability of dye f3r further aerobic treatment. After operation, average MLSS concentration of anaerobic sludge reactor, anaerobic fixed-bed reactor and aerobic fixed-bed reactor were 17100mg/L, 20000mg/L, and 10000mg/L, respectively.

• 대한환경공학회지
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• 제28권6호
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• pp.677-686
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• 2006

본 연구의 목적은 기존 정수처리 공정에 하향류식 호기성 생물여과 공정을 설치하였을 때 적정 위치를 선정하고자, 응집/침전 전(Mode A)에 BAF 공정을 설치하였을 때와 응집/침전 후(Mode B)에 BAF 공정을 설치하였을 때의 부유성 입자물질, 유기물, 암모니아성 질소 제거효율을 비교하고자 하였다. 운전결과 입자성물질(turbidity, SS)의 제거효율은 모든 EBCT에 걸쳐 Mode A, B 모두 약 80% 정도의 효율을 보였으며 Mode A에서의 효율이 다소 높은 것으로 조사되었다. 유기물질($BOD_5$) 제거 및 질산화 효율도 90% 이상으로 나타났으며 Mode A에서 의 효율이 더 좋은 것으로 나타났다. 생물막 두께 및 양은 EBCT가 증가할수록 커졌으며, 기질이 유입되는 상부에서 하부에 비해 약 30% 이상 미생물량이 많았다. 비산소소비속도(SOUR)는 기질이 유입되는 반응기 상부, Mode A에서 증가하는 경향을 나타내었으며 약품주입량 비교 시 Mode A가 경제적인 것으로 나타났다. 기존상수처리공정과 Mode A에 대한 경제성 분석결과 연간 응집제를 67%, 염소주입량을 95% 가량 절감할 것으로 조사되었다.

• 대한환경공학회지
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• 제28권7호
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• pp.752-756
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• 2006

최근 수계의 총질소(T-N) 규제가 강화되면서 기존 BAF 공정의 개선을 위해 독립적인 무산소조가 추가로 도입되었다. 본 연구에 사용된 공정은 유기물과 질산화 중심으로 개발 된 기술인 $Biobead^{(R)}$공법으로 상용화된 상향류의 BAF공정의 하나이다. 독립적인 무산소조의 도입의 타당성을 검토하기 위해 분자생물학적 방법의 하나인 PCR-DGGE기법이 수행되었다. 두 가지 type의 nitrite reductase genes를 통해 진행되었는데, nirS로 암호화된 cytocrome $cd_1$ nitrite reductase gene과 nirK로 암호화된 Cu를 함유한 nitrite reductase gene이다. 이러한 탈질 기능유전자를 이용하여 PCR-DGGE를 통해 탈질 목적으로 순화된 독립적인 무산소조의 탈질미생물의 군집을 해석하였다. PCR 증폭결과, 탈질을 수행하는 무산소조 내에서는 nirS와 nirK유전자 가운데 nirS유전자만 검출되었고, DGGE 분석결과, 최초 식종원으로 이용된 활성슬러지에서는 상대적으로 많은 band들이 검출되는 반면, 무산소조 내에서는 운전일수와 nitrate 부하량이 증가할수록 단일 band로 우점화 하는 경향을 나타내었다. DGGE band에 대한 염기서열 분석결과, 식종 슬러지의 경우 다양한 uncultured bacteria가 나타났으나, nitrate 제거율이 높은 안정화된 무산소조에서는 alcaligenes faecalis 등 특정 탈질미생물이 우점화 되는 것으로 확인되었다. 결론적으로 이러한 탈질미생물 군집특성을 가지는 무산소조의 도입은 96%이상의 안정적인 탈질을 가능하게 하였으며, BAF 공정 개선을 위한 독립적인 무산소조의 도입은 적절한 것으로 판단되었다.

• Journal of Microbiology and Biotechnology
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• 제13권3호
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• pp.385-393
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• 2003

Microbial communities were analyzed in an anaerobic/aerobic sequencing batch reactor (SBR) fed with glucose as a sole carbon source. Scanning electron microscopy (SEM) showed that tetrad or cuboidal packet bacteria dominated the microbial sludge. Quinone, slot hybridization, and 165 rRNA gene sequencing analyses showed that the Proteobacteria beta subclass and the Actinobacteria group were the main microbial species in the SBR sludge. However, according to transmission electron microscopy (TEM), the packet bacteria did not contain polyphosphate granules or glycogen inclusions, but only separate coccus-shaped bacteria contained these, suggesting that coccus-shaped bacteria accumulated polyphosphate directly and the packet bacteria played other role in the enhanced biological phosphorus removal (EBPR). Based on previous reports, the Actinobacteria group and the Proteobacteria beta subclass were very likely responsible for acid formation and polyphosphate accumulation, respectively, and their cooperation achieved the EBPR in the SBR operation which was supplied with glucose.

• Environmental Engineering Research
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• 제11권2호
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• pp.63-76
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• 2006

Multivariate analysis and batch monitoring on a pilot-scale sequencing batch reactor (SBR) are described for integrated wastewater treatment management system, where a batchwise multiway independent component analysis method (MICA) are used to extract meaningful hidden information from non-Gaussian wastewater treatment data. Three-way batch data of SBR are unfolded batch-wisely, and then a non-Gaussian multivariate monitoring method is used to capture the non-Gaussian characteristics of normal batches in biological wastewater treatment plant. It is successfully applied to an 80L SBR for biological wastewater treatment, which is characterized by a variety of error sources with non-Gaussian characteristics. The batchwise multivariate monitoring results of a pilot-scale SBR for integrated wastewater treatment management system showed more powerful monitoring performance on a WWTP application than the conventional method since it can extract non-Gaussian source signals which are independent and cross-correlation of variables.

• Journal of Microbiology
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• 제43권5호
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• pp.451-455
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• 2005

In this study, whole cells and a crude enzyme of Candida peltata were applied to an electrochemical bioreactor, in order to induce an increment of the reduction of xylose to xylitol. Neutral red was utilized as an electron mediator in the whole cell reactor, and a graphite-Mn(IV) electrode was used as a catalyst in the enzyme reactor in order to induce the electrochemical reduction of $NAD^+$ to NADH. The efficiency with which xylose was converted to xylitol in the electrochemical bioreactor was five times higher than that in the conventional bioreactor, when whole cells were employed as a biocatalyst. Meanwhile, the xylose to xylitol reduction efficiency in the enzyme reactor using the graphite-Mn (IV) electrode and $NAD^+$ was twice as high as that observed in the conventional bioreactor which utilized NADH as a reducing power. In order to use the graphite-Mn(IV) electrode as a catalyst for the reduction of $NAD^+$ to NADH, a bioelectrocatalyst was engineered, namely, oxidoreductase (e.g. xylose reductase). $NAD^+$ can function in this biotransformation procedure without any electron mediator or a second oxidoreductase for $NAD^+/NADH$ recycling