Integration of anammox into the MBR process for main stream sewage treatment

Journal of Water Supply Research and Technology—AQUA ◽

10.2166/aqua.2021.232 ◽

2021 ◽

Author(s):

Dayan Yu ◽

Wenjie Zhang

Keyword(s):

Membrane Bioreactor ◽

Ammonia Oxidation ◽

Sewage Treatment ◽

Operating Costs ◽

Main Stream ◽

Operation Costs ◽

Anaerobic Ammonia Oxidation ◽

Microbial Analysis ◽

Do Concentration ◽

Total Nitrogen Removal

Abstract The integration of Anaerobic ammonia oxidation (anammox) into the membrane bioreactor (MBR) process (AX-MBR) is proposed in this study to reduce operating costs. The temperature was not controlled during the study. Anammox, denitrification, and nitrification were studied in the AX-MBR for 210 days. The reactor was fed with mainstream sewage from Guilin City, China. The results showed that AX-MBR could run with reduced dissolved oxygen (DO) concentration, and COD, NH4+-N, and total nitrogen removal were maintained or improved. The microbial analysis results demonstrated that the added anammox sludge could survive in the AX-MBR, but the sludge microbial diversity decreased. Nitrospira, Candidatus Kuenenia, and Nitrosomonas dominated the anammox sludge. In a word, the AX-MBR developed in this study could treat mainstream sewage with the appropriate management, and the operation costs are expected to reduce by decreasing the amount of aeration.

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Performance and microbial community of the CANON process in a sequencing batch membrane bioreactor with elevated COD/N ratios

Water Science & Technology ◽

10.2166/wst.2020.089 ◽

2020 ◽

Vol 81 (1) ◽

pp. 138-147

Author(s):

Xiaoling Zhang ◽

Xincong Liu ◽

Meng Zhang

Keyword(s):

Organic Matter ◽

Microbial Community ◽

Nitrogen Removal ◽

Membrane Bioreactor ◽

Ammonia Oxidation ◽

Heterotrophic Bacteria ◽

Removal Rate ◽

Ammonia Oxidizing Bacteria ◽

Anaerobic Ammonia Oxidation ◽

Canon Process

Abstract In this study, the effects of elevated chemical oxygen demand/nitrogen (COD/N) ratios on nitrogen removal, production and composition of the extracellular polymer substances (EPS) and microbial community of a completely autotrophic nitrogen removal via nitrite (CANON) process were studied in a sequencing batch membrane bioreactor (SBMBR). The whole experiment was divided into two stages: the CANON stage (without organic matter in influent) and the simultaneous partial nitrification, anaerobic ammonia oxidation and denitrification (SNAD) stage (with organic matter in influent). When the inflow ammonia nitrogen was 420 mg/L and the COD/N ratio was no higher than 0.8, the addition of COD was helpful to the CANON process; the total nitrogen removal efficiency (TNE) was improved from approximately 65% to more than 75%, and the nitrogen removal rate (NRR) was improved from approximately 0.255 kgN/(m3·d) to approximately 0.278 kgN/(m3•d), while the TNE decreased to 60%, and the NRR decreased to 0.236 kgN/(m3•d) when the COD/N ratio was elevated to 1.0. For the EPS, the amounts of soluble EPS (SEPS) and loosely bound EPS (LB-EPS) were both higher in the CANON stage than in the SNAD stage, while the amount of tightly bound EPS (TB-EPS) in the SNAD stage was significantly higher due to the proliferation of heterotrophic bacteria. The metagenome sequencing technique was used to analyse the microbial community in the SBMBR. The results showed that the addition of COD altered the structure of the bacterial community in the SBMBR. The amounts of Candidatus ‘Anammoxoglobus’ of anaerobic ammonia oxidation bacteria (AAOB) and Nitrosomonas of ammonia oxidizing bacteria (AOB) both decreased significantly, and Nitrospira of nitrite oxidizing bacteria (NOB) was always in the reactor, although the amount changed slightly. A proliferation of denitrifiers related to the genera of Thauera, Dokdonella and Azospira was found in the SBMBR.

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Nitrate reduction, nitrous oxide formation, and anaerobic ammonia oxidation to nitrite in the gut of soil-feeding termites (Cubitermes and Ophiotermes spp.)

Environmental Microbiology ◽

10.1111/j.1462-2920.2011.02648.x ◽

2011 ◽

Vol 14 (4) ◽

pp. 860-871 ◽

Cited By ~ 33

Author(s):

David Kamanda Ngugi ◽

Andreas Brune

Keyword(s):

Nitrous Oxide ◽

Nitrate Reduction ◽

Ammonia Oxidation ◽

Oxide Formation ◽

Anaerobic Ammonia Oxidation

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Occurrence and elimination of antibiotics at four sewage treatment plants in Japan and their effects on bacterial ammonia oxidation

Water Science & Technology ◽

10.2166/wst.2009.067 ◽

2009 ◽

Vol 59 (4) ◽

pp. 779-786 ◽

Cited By ~ 67

Author(s):

Gopal Chandra Ghosh ◽

Takashi Okuda ◽

Naoyuki Yamashita ◽

Hiroaki Tanaka

Keyword(s):

Oxygen Uptake ◽

Nalidixic Acid ◽

Removal Efficiency ◽

Treatment Process ◽

Ammonia Oxidation ◽

Oxygen Uptake Rate ◽

Sewage Treatment ◽

Secondary Treatment ◽

Mixed Condition ◽

Sewage Treatment Plants

The occurrence and elimination of seventeen antibiotics (three macrolides: azithromycin, clarithromycin and roxithromycin; five quinolones: ciprofloxacin, enrofloxacin, levofloxacin, nalidixic acid and norfloxacin; five sulfonamides: sulfadimethoxine, sulfadimizine, sulfamerazine, sulfamethoxazole and sulfamonomethoxine; and others: tetracycline, lincomycin, salinomycin and trimethoprim) were investigated at four full-scale sewage treatment plants in Japan. The highest concentration was recorded for clarithromycin (1,129 to 4,820 ng/L) in influent, followed by azithromycin (160 to 1,347 ng/L), levofloxacin (255 to 587 ng/L) and norfloxacin (155 to 486 ng/L). A vary inconsistence picture was obtained with negative to over 90% removal. Nalidixic acid (53 to100%) exhibited higher removal efficiency followed by norfloxacin (75 to 95%), levofloxacin (40 to 90%), ciprofloxacin (60 to 83%) and enrofloxacin (38 to 74%). Among macrolides, clarithromycin (50 to 88%) and azithromycin (34 to 86%) showed relatively higher removal efficiency than roxithromycin (−32 to 59%). For most of the antibiotics removal efficiency was higher in A2O and AO based secondary treatment process than CAS process. The effect of the antibiotics on bacterial ammonia oxidation determined by oxygen uptake rate presented that there was no significant effect below 0.05 mg/L of each antibiotics. Even at the same concentration, antibiotics in mixed condition had higher inhibition effects than individuals.

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Nitrogen removal in a moving bed membrane bioreactor for municipal sewage treatment: Community differentiation in attached biofilm and suspended biomass

Chemical Engineering Journal ◽

10.1016/j.cej.2015.04.141 ◽

2015 ◽

Vol 277 ◽

pp. 209-218 ◽

Cited By ~ 24

Author(s):

P. Reboleiro-Rivas ◽

J. Martín-Pascual ◽

B. Juárez-Jiménez ◽

J.M. Poyatos ◽

R. Vílchez-Vargas ◽

...

Keyword(s):

Nitrogen Removal ◽

Membrane Bioreactor ◽

Sewage Treatment ◽

Municipal Sewage ◽

Moving Bed ◽

Suspended Biomass

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Influence of operating conditions on population dynamics in nitrifying biofilms

Water Science & Technology ◽

10.2166/wst.1999.0315 ◽

1999 ◽

Vol 39 (7) ◽

pp. 5-11 ◽

Cited By ~ 5

Author(s):

Valentina Lazarova ◽

Danièle Bellahcen ◽

Jacques Manem ◽

David A. Stahl ◽

Bruce E. Rittmann

Keyword(s):

Population Dynamics ◽

Ammonia Oxidation ◽

Biofilm Reactor ◽

Operating Conditions ◽

Stable Operation ◽

N Removal ◽

Wide Range ◽

Total Nitrogen Removal ◽

Nitrite Oxidizers

TURBO N® is a circulating-bed biofilm reactor that provides stable operation and high N removal for a wide range of N and BOD loadings. This paper describes the influence of operating conditions on biofilm composition and population dynamics when the TURBO N® is operated to achieve tertiary nitrification, simultaneous carbon and ammonia oxidation and total nitrogen removal when coupled with a pre-denitrification fixed floating bed reactor. In situ specific nitrification rates and respiration tests showed that ammonium and nitrite oxidizers became less active in the biofilm once oxidation of influent BOD became important. Analyses of community structure with oligonucleotide probes targeted to the 16S rRNA showed the same general trends for nitrifiers, but also suggested shifts in the makeup of the ammonium and nitrite oxidizers that could not be detected with respirometry or specific nitrification rates.

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