• Title/Summary/Keyword: nutrient removal

Search Result 426, Processing Time 0.029 seconds

Characterization of Algal-Bacterial Ecological Interaction and Nutrients Removal Under Municipal Wastewater Condition (실제 하수조건에서 조류-세균 복합군집의 생태적 상호작용 및 영양염류 제거 특성 규명)

  • Lee, Jang-Ho;Park, Joon-Hong
    • Journal of Korean Society of Environmental Engineers
    • /
    • v.33 no.5
    • /
    • pp.314-324
    • /
    • 2011
  • Algal biomass cultivated by wastewater is potentially useful resource for biodiesel production. However, little is known about algal nutrient metabolism and microbial interaction with bacteria under real municipal wastewater condition. In this work, we characterized nitrogen and phosphorus removals of municipal wastewater by a representative wastewater-growing algal population. Ankistrodesmus gracilis SAG 278-2, and analyzed its ecological interaction with wastewater bacterial communities. Compared to wastewater sludge itself, algal-bacterial co-culture improved nutrient removal. According to bacterial community analysis with 16S rRNA genes, a selective and dominant growth of a Unclassified Alcaligenaceae population resulted from algal growth in the algal-bacterial co-culture. The selectively stimulated bacterial population is phylogenetically close to Alcaligenes faecalis subsp. 5659-H, which is known to be co-present interact with algae in aquatic environment. These findings suggest that algal growth/metabolism may have effects on selection of a specific bacterial population in algal-bacterial co-cultures that can efficiently remove nutrients from municipal wastewater.

Development of Alternative External Carbon Source from Wasting Carbonaceous Organic Resource and Full Scale Application (유기폐자원을 이용한 고도하수처리 대체탄소원 개발 및 실플랜트 적용)

  • Jung In Chul;Kim Ho Young;Kang Dong Hyo;Jung Joung Soon;Lee Sang Won;Lim Keun Taek;Kim Chang Won
    • Journal of Environmental Science International
    • /
    • v.13 no.10
    • /
    • pp.911-919
    • /
    • 2004
  • The purpose of this research was evaluated economical effect to apply alternative external carbon source. Conventional activated sludge process in municipal wastewater treatment plant was adapted and introduced to Biological nutrient removal processes to meet the newly enforced effluent quality standard for nutrient removal in Korea. Low $COD/NH_4^+-N$ ratio and higher nutrient concentration of influent characteristics force to inject external carbon source for denitrifying recycled nitrate. In the most case, methanol was used as external carbon source. But Methanol is expensive and very dangerous in handling. So we could find cheaper and safer external carbon source substituted methanol in last study. This alternative external carbon source is named RCS(recoverd carbon source) and a by-product of fine chemical product at chemical plant. When RCS was applied real municipal wastewater treatment plant, average $55\~65\%$ of T-N removal efficiency, 8.8mg/l of effluent T-N concentration, 11.3mg/l of effleunt COD concentration were obtained without effluent COD increase as against used methanol. To apply RCS in municipal wastewater treatment plant obtain approximately $\74.5%$ expenditure cost reduction in comparison with methanol dosage cost.

A Study on Autocontrolled SBR for Biological Nutrient Removal with External Carbon Sources (외부탄소원 주입시 영양염류의 생물학적 제거를 위한 자동제어 SBR 공정에 관한 연구)

  • Lee, Byung-hun;Kang, Seong-jae;Lim, Sung-il;Yoo, Pyung-jong
    • Journal of Korean Society on Water Environment
    • /
    • v.18 no.4
    • /
    • pp.371-377
    • /
    • 2002
  • The purpose of this study is to develop effective operating process in order to achieve more suitable conditions of Anoxic-Oxic-Anoxic-Stripper(AOAS) SBR through real-time control. To improve the removal efficiency, glucose, methanol and synthetic food waste acid fermentant were added as an external carbon source, In the case of glucose and synthetic food waste acid fermentant, TN, TP were removed to average 86.9%, 73.0% respectively. Methanol was removed to average 64.6%, 55.4% respectively. The synthetic food waste acid fermentant proved to be the most efficient and allowed for the substitution of an external carbon source. The removal rate of $COD_{Cr}$, was approximately 90% at all cases. The results of the study that a correlation between ORP (Oxidation-Reduction Potential), pH and DO and nitrification or denitrification when an external carbon source is added and when it isn't was showed that ${\Delta}ORP$ is suitable parameter. ORP reacted properly to denitrification (${\Delta}ORP<-10$) and nitrification (${\Delta}ORP<0$). The use of real-time control saved anywhere between 61 and 67 minutes at the anoxic(1) stage and 26 to 52 minutes at the oxic(1) stage. When the time saved from the anoxic(1) and oxic(1) was added to the anoxic(2) stage for the removal efficiency of TN and TP increased from 0.7 to 13.9% and 12 to 35 % respectively.

Biological Nitrogen Removal Using a Single Biofilter Packed with Granular Sulfur (황 충진상 단일 생물막여과 공정을 이용한 생물학적 질소제거)

  • Moon, Jin-young;Hwang, Yong-woo;Kim, Dae-young;Ga, Mi-sun
    • Journal of Korean Society of Water and Wastewater
    • /
    • v.19 no.6
    • /
    • pp.720-727
    • /
    • 2005
  • This study was performed to advance nitrogen removal efficiency by employing an single biofilter packed with granular sulfur, which consists of nitrification occurring at upper part and denitrification at lower part of the reactor. Continuos nitrification/denitrification was carried out with different alkalinity sources, which were $NaHCO_3$ and $CaCO_3$(limestone). In the downflow nitrification/denitrification biofilter packed with granular sulfur, first, terms for nitrogen removal was decided. As results, nitrification and denitrification rate with NaHCO3 at 0.85 kg $NH_4^+-N/m^3{\cdot}d$ were accomplished $0.80kg\;N/m_3{\cdot}d$, $0.43kg\;N/m^3{\cdot}d$, respectively. In the sulfur/limestone packed downflow nitrification/denitrification biofilter, sulfur and limestone were mixed packed, preliminary test showed sulfur/limestone mixing ratio was 3:1 and that was ideal. In the result, nitrification and denitrification rate at $0.7kg\;NH_4^+-N/m^3{\cdot}d$ were accomplished$0.65kg\;N/m^3{\cdot}d$, $0.34kg\;N/m^3{\cdot}d$, respectively. In general, employing granular sulfur can be implemented for only denitrification, but this system can accomplish nitrification as well as denitrification in a single reactor even though low carbon concentration was present in influent limiting to nutrient removal process. This biofilter system of limestone and granular sulfur packed together can successfully apply for nutrient removal effectively.

Characteristics of Nutrient Removal with Variation of the Anoxic-Oxic Phase Repetition in Sequencing Batch Reactor Process (SBR공정의 무산소-호기 구간반복에 따른 영양염류 제거 특성)

  • Lee, Jaekune;Yim, Soobin
    • Journal of the Korean GEO-environmental Society
    • /
    • v.10 no.1
    • /
    • pp.43-48
    • /
    • 2009
  • This study was performed to investigate the characteristics of nutrient removal by Sequencing Batch Reactor (SBR) system, which could achieve high removal efficiencies of nitrogen and phosphorus and make it possible convenient management and operation. In this study, dissolved oxygen (DO), chemical oxygen demand (COD), nitrogen, and phosphorus in SBR system were examined by variation of anoxic-oxic phase repetition in order to optimize an operational method. The 1~4 times of anoxic-oxic phases (Run 1~4) were repeated during 1 cycle operation period. As the repetition frequency increased, it was more difficult to maintain DO condition enough for denitrification. The SBR system showed high COD removal efficiency more than 91% regardless of operational condition. About 68% of nitrogen removal rate was obtained in conditions of 2 or 3 times repetition of anoxic phases, in which NOx-N among discharged total nitrogen account for more than 99%. Approximately 40% of phosphorus was eliminated in the conditions of 1~3 times of anoxic phase repetition.

  • PDF

Effects of mixing/aeration ratio and SRT on nutrient removal in SBR process (연속회분식반응조 공정에서 교반/폭기비와 SRT가 영양염류제거에 미치는 영향)

  • Jeon, Seok-Jun;Kim, Han-Soo
    • Journal of Korean Society on Water Environment
    • /
    • v.18 no.3
    • /
    • pp.291-301
    • /
    • 2002
  • In this study, nutrients treatment by sequencing batch reactors(SBR) was performed. Nitrogen and phosphorus removal efficiencies were evaluated by changing SRT and mixing/aeration ratio. Not only nitrogen but also phosphorus removal patterns were investigated through track studies on 1 cycle. As SRT was fixed and mixing/aeration ratio was changed, maximum nitrogen removal efficiency was 87.6% at mixing/aeration ratio 0.67. Phosphorus removal efficiencies were more than 85.5% except no mixing condition. As mixing/aeration ratio was fixed and SRT was changed, nitrogen removal efficiencies were 70.5~79.8%, which represented slight changes, while phosphorus removal efficiencies were 49.0~97.3%, which represented sharply decreasing tendency at less than 20 day. Both phosphorus release rate k and maximum phosphorus release rate $P_{max}/M$ were are decreased as SRT was decreased, but they were not affected by mixing/aeration ratio. It was found that there is a linear relationship between ortho-phosphate uptake and maximum ortho-phosphate release.

Removal of Simultaneously Biological Organic, Nitrogen, and Phosphorus Removal in Sequencing Batch Reactors using Night-soil (연속회분식 반응기(Sequencing Batch Reactor)를 이용한 분뇨중 유기물과 질소 및 인의 동시제거)

  • 한기백;박동근
    • Journal of Environmental Science International
    • /
    • v.6 no.6
    • /
    • pp.697-709
    • /
    • 1997
  • Sequencing Batch Reactor(SBR) experiments for organics and nutrients removal have been conducted to find an optimum anaerobic/anoxic/aerobic cycling time and evaluate the applicability of oxidation-reduction potential(ORP) as a process control parameter. In this study, a 61 bench-scale plant was used and fed with night-soil wastewater in K city which contained TCODcr : 10, 680 mg/l, TBm : 6, 893 mg/l, $NH_4^+-N$ : 1, 609 mg/l, $PO_4^{3-}-P$ : 602 mg/l on average. The cycling time In SBRs was adjusted at 12 hours and 24 hours, and then certainly included anaerobic, aerobic and inoxic conditions. Also, for each cycling time, we performed 3 series of experiment simultaneously which was set up 10 days, 20 days and 30 days as SRT From the experimental results, the optimum cycling time for biological nutrient removal with nlght-soil wastewater was respctively 3hrs, 5hrs, 3hrs(anaerobic-aerobic-anoxic), Nitrogen removal efficiency was 77.9%, 77.9%, 81.7% for each SRT, respectively. When external carbon source was fed in the anoxic phase, ORP-bending point indicating nitrate break point appeared clearly and nitrogen removal efficiency increased as 96.5%, 97.1%, 98.9%. Phosphate removal efficiency was 59.8%, 64.571, 68.6% for each SRT. Also, we finded the applicability of ORP as a process control parameter in SBRs.

  • PDF

A Comparison of N and P Removal Characteristics by the Variation of Non-aeration Time in A2O SBBR (A2O SBBR에서 비포기 시간 배분에 따른 질소-인 제거 특성 비교)

  • Park, Young-Seek;Jeong, No-Sung;Kim, Dong-Seog
    • Journal of Environmental Science International
    • /
    • v.16 no.7
    • /
    • pp.813-821
    • /
    • 2007
  • Laboratory scale experiments were conducted to investigate the removal characteristics of nitrogen and phosphorus in two sequencing batch biofilm reactors (SBBRs). SBBR1 had a short first non-aeration period and SBBR2 had a long first non-aeration period. The removal characteristics of nitrogen and phosphorus in each SBBR were precisely observed according to the variation of influent TOC concentration, and the operation control parameters (pH, DO concentration, ORP) in each reactor were measured. In biological nitrogen removal, there was little difference between SBBR1 and SBBR2 and the nitrogen removal efficiencies were very low. The nitrogen and phosphorus removal characteristics in high influent TOC concentration were different from those in low TOC. Nitrogen removals by simultaneous nitrification/denitrification (SND) were occurred in both SBBR1 and SBBR2. The P removal in SBBR1 was superior to that in SBBR2. The second P release was observed in SBBR1 which had long second non-aeration period.

Characteristics of Bacillus sp. for wastewater treatment

  • Kim, Sang-Hui;Lee, Min-Gyu;Lee, Byeong-Heon;Kim, Jung-Gyun
    • 한국생물공학회:학술대회논문집
    • /
    • 2000.04a
    • /
    • pp.361-364
    • /
    • 2000
  • To remove nitrogen compound from wastewater six kinds of bacillus were isolated from sludge. Each bacillus was identified as B. subtillis $I{cdot}II$, B. cereus $I{cdot}II$, B. anthracis, B. circulans. The test of effect of nutrient and cofector on the nitrogen removal showed that peptone, yeast extract, magnesium, iron, and calsium accerated the efficiency of nitrogen removal. In syringe test aerobic nitrification and denitrification was occured.

  • PDF

Estimation of Sludge Reduction and Nitrogen Removal Possibility using OSA Process (OSA 공정을 이용한 하수슬러지 감량화 및 질소제거 가능성 평가)

  • Joo, Jae-Young;Yoon, Su-Chul;Nam, Duck-Hyun;Park, Chul-Hwi
    • Journal of Korean Society of Water and Wastewater
    • /
    • v.22 no.5
    • /
    • pp.497-503
    • /
    • 2008
  • The Oxic-Settling-Anaerobic(OSA) process is a modified activated sludge processes for sludge reduction. It is evaluated that the sludge production in OSA process can decrease to 88% because of biomass decay and kinetic parameter($Y_H$ 0.237mgVSS/mgCOD, $b_H$ $0.195d^{-1}$) in anaerobic reactor, when compared with CAS process. However, it has problems caused by sludge reduction such as increase of nutrient loading. In case that the anoxic condition through the introduction of the intermittent aeration for the enhancement of nitrogen removal ability build up and enough rbCOD is suppled, maximum 88% of nitrogen is removed in the OSA process. If the OSA process optimizing the intermittent aeration cycle is applied to the separate sewage system with high rbCOD fraction, it can be converted to advanced process in terms of the sludge reduction and nitrogen removal, simultaneously.