• Title/Summary/Keyword: phased isolation intra-clarifier ditch

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Stability Evaluation of Phased Isolation Intra-Clarifier Ditch Process on Short-Term Hydraulic Shock Loading (단기 수리학적 충격부하시 침전지 내장형 상분리 산화구공정의 처리 안정성 평가)

  • Hong, Ki-Ho;Chang, Duk
    • Journal of Korean Society of Water and Wastewater
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    • v.19 no.6
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    • pp.791-799
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    • 2005
  • The phased isolation intra-clarifier ditch system used in this study is a simplified novel process enhancing simultaneous removal of biological nitrogen and phosphorus in municipal wastewater in terms of elimination of additional pre-anaerobic reactor, external clarifier, recycle of sludge, and nitrified effluent recirculation by employing intrachannel clarifier. Laboratory-scale phased isolation ditch system was used to assess the treatability on municipal wastewater. When the system was operated at the HRTs of 6~12hours, SRTs of 9~31days, and cycle times of 2~8hours, the system showed removals of BOD, TN, and TP as high as 88~97%, 70~84%, and 65~90%, respectively. The rainfall in Korea is generally concentrated in summer because of site-specific characteristics. Especially, the wet season has set in on June to August. In combined sewers, seasonal variations are primarily a function of the amount of stormwater that enters the system. In order to investigate the effect of hydraulic shock loading on system performance, the laboratory-scale system was operated at an HRT of 6hours (two times of influent flowrate) during two cycles (8hours). The system performance slightly decreased by increasing of influent flowrate and decreasing of system HRT. Nitrification efficiency and TN removal were slightly decreased by increasing of influent flowrate (decreasing of system HRT), whereas, the denitrification was not affected by hydraulic shock loading. However, the higher system performance could be achieved again after four cycles. Thus, the phased isolation technology for enhanced biological nutrient removal in medium- and small-scale wastewater treatment plants suffering fluctuation of influent quality and flowrate.

Performance Evaluation of Advanced Municipal Wastewater Tretment by Phased Isolation Intrachannel Clarifier Ditch (침전지내장형 상분리 산화구공정에 의한 하수 고도처리특성 평가)

  • Hong, Ki-Ho;Chang, Duk;Han, Sang-Bae
    • Journal of Korean Society on Water Environment
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    • v.20 no.6
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    • pp.563-570
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    • 2004
  • Phased isolation intrachannel clarifier ditch process developed in this study is an enhanced biological nutrient removal process employing two ditches with intrachannel clarifiers. Bench-scale phased isolation ditch process was used to evaluate the system performance on municipal wastewater and detailed assessment of internal behavior in a ditch and each reactions. When the system was operated at the HRTs of 6~12hours, SRTs of 9~31 days, and cycle times of 4hours, the system showed removals of BOD, TN, and TP as high as 88~97%, 73~78%, and 65~90%, respectively. The internal behavior were well matched on each reactions such as nitrification, denitrification, and phosphorus release and uptake. As the SRT became longer, TN removal increased gradually, whereas TP removal decreased contrarily. However, the system was capable of producing an effluent TP concentration 1mg/L or less even at longer SRTs except the case of solids discharge by malfunction of intra-clarifier occurred by its geometrical limit. The system performance slightly decreased by hydraulic shock loading(increasing of influent flowrate and decreasing of system HRT). However, the higher system performance could be achieved again after four cycles. Thus, the system reliability could be successfully achieved short-term hydraulic shock loading that occurred in medium- and small-sized wastewater treatment plants suffering fluctuation of influent quality and flowrate during wet season.

중소규모 하수처리장의 탈질$\cdot$탈인 PICD 시스템 실용화기술개발

  • 한상배;노명규;정보림;장덕;서성철;홍기호;성문성
    • Environmental engineer
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    • s.172
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    • pp.70-81
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    • 2000
  • G-7 환경기술연구개발 3단계사업의 일환으로 `98년도부터 (주)그린기술산업과 건국대학교에서 연구 수행중인 PICD(Phased Isolation Intra Clarifier Ditch)시스템은 중소규모 하수처리장의 유입부하변동에 대해 안정적이고, 신축적인 운전이 가능한 탈질$\cdot$탈인 공정이다. 국내는 물론 미국 및 중국 특허를 획득한 본 시스템은 기존의 내부순환포함 다단 완전혼합형 영양염류제거공정과는 달리 침전지를 산화구에

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