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막결합형 생물반응기(Membrane Bio-Reactor)의 막 오염 저감을 위한 고전압 펄스의 적용과 막 오염 저감 속도론적 해석 KCI 등재

Application of high voltage pulse for reduction of membrane fouling in membrane bio-reactor and kinetic approach to fouling rate reduction

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상하수도학회지 (Journal of the Korean Society of Water and Wastewater)
대한상하수도학회 (Korean Society Of Water And Wastewater)
초록

Although membrane bio-reactor (MBR) has been widely applied for wastewater treatment plants, the membrane fouling problems are still considered as an obstacle to overcome. Thus, many studies and commercial developments on mitigating membrane fouling in MBR have been carried out. Recently, high voltage impulse (HVI) has gained attention for a possible alternative technique for desalting, non-thermal sterilization, bromate-free disinfection and mitigation of membrane fouling. In this study, it was verified if the HVI could be used for mitigation of membrane fouling, particularly the internal pore fouling in MBR. The HVI was applied to the fouled membrane under different conditions of electric fields (E) and contact time (t) of HVI in order to investigate how much of internal pore fouling was reduced. The internal pore fouling resistance (Rf) after HVI induction was reduced as both E and t increased. For example, Rf decreased by 19% when the applied E was 5 kV/cm and t was 80 min. However, the Rf decreased by 71% as the E increased to 15 kV/cm under the same contact time. The correlation between E and t that needed for 20% of Rf reduction was modeled based on kinetics. The model equation, E1.54t = 1.2 × 103 was obtained by the membrane filtration data that were obtained with and without HVI induction. The equation states the products of En and t is always constant, which means that the required contact time can be reduced in accordance with the increase of E.

목차
ABSTRACT
1. 서 론
2. 실험 장치 및 방법
    2.1. 활성슬러지 배양
    2.2. 회분식 교반 셀
    2.3 High Voltage Impulse 시스템
    2.4 HVI 반응기
3. 결과 및 고찰
    3.1 전계 (E) 및 접촉시간 (t)에 따른 Rf 변화
    3.2 HVI 처리에 따른 Rf 저감 모델링
4. 결 론
References
저자
  • 김경래(호서대학교 환경공학과) | Kyeong-Rae Kim (Department of Environmental Engineering, Hoseo University)
  • 김완규(호서대학교 안전환경기술융합학과) | Wan-Kyu Kim (Department of Convergence Technology for Safety and Environment, Hoseo University)
  • 장인성(호서대학교 환경공학과) | In-Soung Chang (Department of Environmental Engineering, Hoseo University) Corresponding author