• Environmental Engineering Research
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• 제21권3호
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• pp.233-240
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• 2016

The research aims to study the different flexible rubber tube diffusers used in urban wastewater treatment processes and aquaculture systems. The experiment was conducted in small-scale aeration tank with different physical properties of the tubes that were used as aerators. The volumetric mass transfer coefficient ($k_La$), oxygen transfer efficiency (OTE) and aeration efficiency (AE) were measured and determined to compare the diffusers. Moreover, the bubble hydrodynamic parameters were analyzed in terms of bubble diameter ($d_B$) and rising velocity ($U_B$) by a high speed camera (2,000 frames/s). Then the interfacial area (a) and liquid-side mass transfer coefficient ($k_L$) can be calculated. The physical properties (tube wall thickness, tensile strength, orifice size, hardness and elongation) have been proven to be the key factor that controls the performance (kLa and OTE). The effects of hardness and elongation on bubble formation, orifice size and a-area were clearly proved. It is not necessary to generate too much fine bubbles to increase the a-area: this relates to high power consumption and the decrease of the kL. Finally, the wall thickness, elongation and hardness associated of the flexible tube diffuser (tube No. 12) were concluded, to be the suitable properties for practically producing, in this research.

• 유기물자원화
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• 제29권3호
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• pp.5-16
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• 2021

본 연구에서는 MBR 공정 내 폭기조에서 순산소 용해와 일반 공기 폭기의 효율에 대한 비교·평가를 통해 순산소의 MBR 공정 적용성에 대해 평가 하였다. 순산소 장치에 의한 유기물 및 암모니아 산화 여부에 대해 평가하였으며, 실폐수(음식물류 폐기물의 혐기성소화 유출수) 적용 과포화산소용해 효율 평가를 진행하였다. 순산소용해와 일반공기폭기 방법의 SCOD, 암모니아 제거율과 속도는 비슷하였다. 하지만, 순산소 용해에 의한 미생물 수율이 일반공기폭기법에 의한 미생물 수율보다 약 0.03 g MLSS-produced/g SCOD-removed 낮아 잉여슬러지 처리 비용이 감소될 수 있을 것이라 판단된다. 음식물류 폐기물의 혐기성 소화 유출수의 고농도 유기물 (4,000 mg/L) 및 암모니아 (1,400 mg/L)의 제거율을 순산소용해와 일반공기폭기법을 비교한 결과, 순산소 용해기가 일반공기폭기법에 비해 유기물 제거율이 약 13% 가량 더 높게 평가되었다. 또한, MLSS의 경우 일반공기폭기법이 순산소장치에 비해 0.3배가량 높았다. 이는, 순산소장치의 경우 폭기조 내에 용존산소가 충분히 유지, 공급되기 때문에 슬러지 자산화가 고도로 진행된 결과로 판단되었다. 따라서, 고농도 유기물을 함유한 폐수 처리를 위한 방법으로는 기존에 많이 사용되었던 일반공기폭기법보다 순산소장치를 활용하는 것이 경제적인 면에서 더 유리할 것으로 판단되었다.

• 상하수도학회지
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• 제22권4호
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• pp.455-460
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• 2008

Powered activated carbon(PAC) has been widely applied for controling odor causing compounds(OCCs) from water treatment plants. Because of their volatility, the OCCs can also be removed from water by air stripping methods. In this study, OCCs removal was tested with PAC adsorption, air stripping, and both PAC adsorption and air stripping from the Taecheong lake water. Removal efficiency of OCCs in terms of threshold odor number(TON) were 39.6% by both PAC (15mg/L) adsorption and aeration for 30 min, 33.6% by PAC(15mg/L) adsorption alone for 30 min, and 22.9% by aeration alone for 30 min, respectively. OCCs could be removed up to 50% by aeration for 120 min without PAC adsorption. At an extended aeration with 15mg/L of PAC, OCCs removal occurred mainly by PAC adsorption within 30 min aeration while it continued by air stripping afterward. At simulated jar tests with the raw water, removal efficiencies of geosmin and MIB were 48.3, 36.1% by coagulation and sedimentation without PAC addition. With 15mg/L of PAC on the same jar tests, the removal efficiencies were 83.1, 60.1%, respectively. Without PAC, OCCs could be possibly removed by stripping during the agitation processes.

• 상하수도학회지
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• 제13권1호
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• pp.51-60
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• 1999

An intermittently-aerated, intermittently-decanted single-reactor process (KIDEA process : KIST intermittently decanted extended aeration process) was applied for nitrogen removal from wastewater. Synthetic wastewater with chemical oxygen demand (COD): nitrogen (N) ratio of approximately 5.25: 1 was used. The average COD removal efficiency reached above 95%, and under optimal conditions nitrogen removal efficiency also reached above 90%. This process consisted of 72 minute aeration, 48 minute settling and 24 minute effluent decanting with continuous feeding of influent wastewater from the bottom of the reactor, and did not require a separate anoxic mixing-phase. In this process, nitritation ($1^{st}$ step of nitrification) was induced but nitratation($2^{nd}$ step of nitrification) was suppressed. Main factors responsible for the accumulation of nitrite ion in the experimental condition were free ammonium and dissolved oxygen. This condition of nitrite build-up accelerated by continuous feed flow in the bottom of the KIDEA reactor because of high concentration of ammonia nitrogen in the influent. This research provides one of answers to control nitrate build-up.

• 한국물환경학회지
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• 제31권4호
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• pp.418-427
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• 2015

This study was carried out to evaluate the performance of a lab-scale novel septic tank system for improving the conventional septic tank in the developing countries of water shortages. The lab-scale novel septic tank system consists of sepetic tank, aeration tank with HBC-ring, and sand filter. Optimum HRT was reguired about 1.5days to get a total COD removal efficiency of 90%, COD, BOD and SS removal efficiency was about 70%, 60%, and 85% in sepetic tank only. The structure of sepetic tank with two stages results in the high removal efficiency of organic matter. When sepetic tank, aeration tank, and sand filter were more than HRT 1.5days, 18hrs, and 12hrs, respectively, final effluent was less than 20 mg/L of BOD, 14 mg/L of SS, so that there is a high potential of its use for reusing water in flush toilet. There is no significant effect of HRT change on nutrient removal. Total nitrogen removal efficiency was about 40%, final effluent was 30~40 mg/L of TN, total phosphorus removal efficiency was about 11~25%, final effluent was 9~12 mg/L of TP. Because there is very small amounts of organic nitrogen and phosphorus in effluent, it was possible to reuse water for agricultural use.

• 상하수도학회지
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• 제18권4호
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• pp.470-479
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• 2004

The experimental conditions and relationships between parameters such as organic matter, aeration volume, aeration time, and precipitation time for the effective treatment of domestic wastewater were investigated. With the batch systems, the adsorption amount of unit microbe was measured with the change of MLSS concentration, precipitation time, and aeration amount. Theoretical adsorption amount of microbes was then numerically formulated by use of a SPSS multiple analysis as follows: $$Y=-0.0106(X_1)+0.07310(X_2)+42.705(X_3)+62.700$$ In this study, the amount of organisms to be removed in the range of MLSS concentration 2,000~4,500 mg/l were examined. In order to investigate the optimal condition of nitrification, the upper water in the biosorption stage was used as the initial experiment water. The results showed that the C/N ratio was 1.5 and the reaction time for the optimal nitrification was 1.5 hr. When the adsorption efficiency for microbe biosorption was 66%, the optimum denitrification efficiency was 83.3%. When the optimum parameters obtained from the batch experiment were applied to the lab-scale operation, the total retention time from the flow-in to flow-out was 10 hours and the removal efficiency was 93.8% for $COD_{cr}$ and 80.9% for TN. For the full-scale operation, the total retention time was 9.0 hours and the removal efficiency was 94.4% for BOD, 89.6% for $COD_{cr}$, 88.0% for TN, and 86.2% for TP.

• 상하수도학회지
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• 제33권3호
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• pp.215-224
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• 2019

Recent focus on wastewater treatment includes energy-saving and renewable energy generation for energy-independence of water infrastructures. Aeration and pumping in biological wastewater removal processes account for nearly 30-60% of the total electricity cost in real wastewater treatment plants. In this study, the performance and microbial characteristics were investigated in sequencing batch reactor under typical oxygen and oxygen limited condition. Under typical DO ($7.55{\pm}0.99mg/L$) and low DO ($0.23{\pm}0.08mg/L$) conditions, COD removal was stable over 91 % during SBR operation. Ammonia removal efficiency was reduced from 95.6 % to 89.2 % when DO concentration was dropped sharply. Phosphorus removal efficiency also reached 77% at oxygen-limited condition. The results indicated that removal efficiency both ammonia and phosphorus was influenced by DO condition. Microbial analysis revealed that Proteobacteria and Bacteroidetes at phylum level was dominant in typical DO and low DO conditions and DO concentration did not much affect phylum distribution. Population decrease of genera of nitrifying bacteria(Dokdonella) and Dechloromonas spp. affect removal efficiency of nitrogen and phosphorus at low DO condition.

• 대한환경공학회지
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• 제34권6호
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• pp.414-420
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• 2012

에너지 절감형 산기장치의 상용화를 목적으로 국내 J사의 인장강도 $400kg_f/cm^2$ 이상, 두께가 0.5 mm의 폴리 우레탄 시트를 확보하고 고무 시트의 천공에 가장 널리 이용되는 방식인 needle을 이용한 천공방법을 택하여 기공의 크기가 $100{\mu}m$ 정도의 판형 멤브레인 산기장치를 제작하였다. 판형 산기 모듈 제작 후 실험실 및 파일롯 규모의 테스트 결과, 수조 450 L, 수온 $20^{\circ}C$, 공기량 40 L/min인 실험실 테스트에서 3분 내에 DO가 5 mg/L을 넘었고, 8분 내에 DO가 포화치에 가까운 8 mg/L 이상이 됨을 알 수 있었다. 이때의 $K_{La(15)}$는 $16.34hr^{-1}$, 표준산소전달효율은 54.7%, 표준폭기효율는 7.88 kg/kwh로 상당히 높은 효율의 실험결과를 보였다. 수조 2 $m^3$, 수온 $19^{\circ}C$, 공기량 30 L/min인 파이롯 규모의 테스트에서는 8분 내에 DO 농도가 5 mg/L를 넘었고, 이때의 $K_{La(15)}$는 $5.8hr^{-1}$, 표준산소전달효율은 42.1%, 표준폭기효율는 6.41 kg/kwh로 기존 산기관의 2~2.5배 높은 효율의 실험결과를 보였다. 특히 단위 동력당 산소전달률이 높아 경제성이 높음을 나타내었다. 기존 산기관의 적용에서 청수에서의 산소전달효율이 실제 폐수에서의 산소전달률의 차이로 인한 문제가 빈발하여 실제 $40^{\circ}C$ 축산폐수에서 테스트한 결과 $OTE_f$는 22.1% $OTE_{pw40}$이 39.6%로 매우 높은 효율을 보였다.

• 한국환경보건학회지
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• 제28권3호
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• pp.34-38
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• 2002

Statistical analysis between sewage plant operating parameters and the effluent quality was performed. We extracted two factors from principal component analysis of operating parameters and effluent quality from each plant. The total variance of 84.7%, 79.2% was explained by the two factors at SB plant and SC plant, respectively. The factors were identified at SB plant in the following order 1) the oxidation of organic material by aeration basin microbe,2) biomass in aeration basin and at SC plant 1) the oxidation of organic material by aeration basin microbe, 2) thickening of acti-vated sludge. These results suggested that the control of microbial composition might be critical on the improvement of the effluent quality and plant operating efficiency because most of the factors were related with microbes.

• 한국환경과학회지
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• 제17권3호
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• pp.343-350
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• 2008

The fate of two cyclic ethers, THF(Tetrahydrofuran) and 1,4-Dioxane, in conventional biological wastewater treatment plants was investigated using sequential activated sludge process. Removal efficiency of THF were about 86% in average, which was greater than that of 1,4-Dioxane, 30%. However, it was not clear whether the removal of cyclic ethers in biological system was caused by microbial activity or not. Thus treatability tests were conducted by batch experiments. The effects of mixing, aeration and the addition of activated sludge on the removal of cyclic ethers were investigated in batch experiments. THF was totally removed by mixing and aeration in 24 hours while removal ratio of 1,4-Dioxane was at most 30% for the same period. This results could be ascribed to the differences in Henry's law constants between the two chemicals. In addition, biological degradation including biosorption was not obviously observed in these batch tests.