• 대한환경공학회지
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• 제31권11호
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• pp.1007-1018
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• 2009

Hydrocyclone은 높은 수면적부하율 운전이 가능하고, 구동부분이 없고, 운전 및 유지관리비가 적게 소요되어 미세입자물질제거에 효과적인 장치로 다양한 산업 분야에서 활용되고 있다. Hydrocyclone에 나선형 유입부를 통해 직각으로 유입되어 중력이 아닌 원심력에 의해 입자물질이 하부배출구로 분리되고 처리수는 vortex finder를 통해 배출된다. 입자분리에 hydrocyclone은 많은 장점을 가지고 있음에도 불구하고 도시지역 강우유출수 처리사례는 드문 실정이다. 본 연구에서는 변형된 hydrocyclone과 perlite 여재를 조합한 hydrocyclone filter (HCF)을 이용하여 강우유출수내 미세입자의 제거능을 분석하였다. 입자물질들은 인공입자들을 이용하여 강우유출수내 입자농도를 모의 실험하였다. 인공입자들을 물에 분산시켜 강우유출수를 재현하였는데 사용한 입자들은 이온교환 수지, 도로측구 퇴적물질, 상업지역 맨홀퇴적물질, 그리고 실리카겔 등이다. 하부배출부와 vortex finder 구조를 달리하여 HCFopen system과 HCF-closed system으로 구분하여 처리능을 분석하였다. HCF장치는 아크릴 수지를 이용하였는데 hydrocyclone의 직경은 120 mm이고 여과조의 직경은 250 mm이고 전체적인 높이는 800 mm로 제작하였다. 운전조건별 유입수 농도와 입경을 다양하게 적용하였고 SS와 COD농도를 분석하여 처리효율을 산정하였다. HCF-open system의 경우 운전 가능한 최대 수면적부하율은 700 $m^3/m^2$/day이었고 HCF-closed system의 경우 수면적부하율 1,200 $m^3/m^2$/day까지이다. HCF-open system 운전결과 HCFclosed system에 비교하여 평균 수면적부하율은 2배 이상 높게 운전이 가능하며 처리효율도 8~20% 이상 향상되는 것으로 분석되었다. 또한 유입수 SS농도가 높을수록 처리효율이 증가하며, 입경이 클수록 수면적부하율의 변화에 대한 처리효율의 영향이 적은 것으로 분석되었다. HCF-closed system의 실험을 통한 수면적부하율 변화에 대한 실리카겔입자의 제거 효율과 CFD입자추적기법을 이용한 예측 처리효율을 비교한 결과 CFD에 예측효율이 실제실험결과와 비교하여 다소 높게 나타나지만 처리효율의 경향은 매우 유사하게 나타나 CFD추적기법을 이용한 HDS유형 처리장치 설계 시 유용한 도구로 활용될 수 있을 것으로 판단된다.

• 한국물환경학회지
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• 제31권5호
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• pp.523-532
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• 2015

Hydrocyclone is widely used in industry, for its simple design, high capacity, low maintenance and low operational cost. The objective of this study is to develop hydrocyclone coagulation and filtration system. The system is made of hydrocyclone ballasted coagulation with polyaluminium chloride silicate (PACS) and upflow filter to treat micro particles in urban storm runoff. Roadside sediment particles (< $200{\mu}m$) was mixed with tap water to make various turbid suspensions to simulate urban storm runoff. The filter cartridge was filled with polyethylene media system and ran 1hr per everyday and total operation time were 8.19hrs and backwashing everyday after end of operation. The operation condition of flowrate was $8.2{\sim}11.9m^3/day$ (mean $10.1m^3/day$) and surface overflow rate (SOR) based on filter surface area was $45.5{\sim}65.9m^3/m^2/day$ (mean $55.7m^3/m^2/day$). The range of PACS dosage concentration was 14.0~31.5 mg/L. As the results of operation, the range of removal efficiency of turbidity, SS were 81.0~95.8% (mean 89.5%) 81.8~99.0% (mean 91.4%), respectively. An increase of filtration basin retention time brought on increased of removal efficiency of turbidity and SS, and increase of SOR brought on decreased of removal efficiency. During the first flush in urban area, storm runoff have an high concentration of SS (200~600 mg/L) and the filtration bed becomes clogged and decreased of removal efficiency. Backwashing begins when the drainage pipe valve at the filtration tank bottom is completely open (backwashing stage 1). Backwashing stage 2 was using air bubbles and water jet washing the media for 5 mins and open the drainage valve. After backwashing stage 1, 2, 61.83~64.04%, 18.53~27.51% of SS loading was discharged from filtration tank, respectively. Discharged SS loading from effluent was 7.12~14.79% and the range of residual SS loading in fliter was 2.26~5.00%. The backwashing effects for turbidity, SS were 89.5%, 91.4%, respectively. The hydrocyclone coagulation and filtration with backwashing system, which came out to solve the problems of the costly exchange filter media, and low efficiency of removing micro particles of filter type nonpoint treatment devices, is considered as an alternative system.

• 한국환경과학회지
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• 제30권12호
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• pp.1081-1092
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• 2021

In this study, the effect on the stability of Aerobic Granular Sludge (AGS) caused by an AGS separator was investigated. The AGS separator was a hydrocyclone. The main factors of the AGS separator were filter pore size (0.125~0.600 mm), conical-to-cylindrical ratio (1.5~3.0), and operating time (1~20 min). The AGS/mixed liquor suspended solid (MLSS) ratio gradually increased to 0.500 mm (AGS/MLSS: 84.3±3.0%). AGS was best separated at the conical-to-cylindrical ratio of 2.5 (AGS/MLSS: 84.7±3.3%). As the operating time increased, the AGS separation performance also tended to increase. The shortest AGS separator run time, but the highest AGS separation performance was 10 min (87.0±2.5%). AGS stability was evaluated by operating the selected AGS separator and sequencing batch reactor. The average removal efficiencies of TOC, TCOD_Cr, SS, TN, and TP were 95.7%, 96.9%, 93.0%, 89.0%, and 96.2%, respectively, which met the effluent standards in Korea. In addition, the AGS/MLSS ratio tended to remain constant, and the sludge volume index demonstrated a tendency to decrease from 140 mL/g to 70 mL/g. During the operation, the particles of AGS in optical microscope observations gradually increased.