Effects of extremely low bulk liquid DO on autotrophic nitrogen removal performance and NOB suppression in side‐ and mainstream one‐stage PNA

Akaboci, Tiago Rogerio Vitor; Gich, Frédéric; Ruscalleda, Maël; Balaguer, M. Dolors; Colprim, Jesús

doi:10.1002/jctb.5649

Cited by 22 publications

(8 citation statements)

References 55 publications

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“…The nitrite half-saturation coefficient (KS) of pure cultures of Nitrobacter was 0.69-7.6 mg-N l -1 , while pure cultures of Nitrospira showed lower values of 0.13-0.38 mg-N l -1 [31]. The oxygen half-saturation coefficient (KO) of mixed cultures of Nitrobacter was 0.43-5.31 mg l -1 [3,33,34] while the value of KO of Nitrospira was 0.33-0.54 mg l -1 [33,35]. The difference of KS and KO between Nitrobacter and Nitrospira allows them to be dominant in distinct environments.…”

Section: Nob Community Structurementioning

confidence: 97%

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2019

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A phosphorylated-polyvinyl alcohol (PPVA) entrapped cell-based reactor was employed to promote partial nitrification for ammonia-rich wastewater treatment. High partial nitrification (66% of nitrite accumulation in average) was achieved along the 165 days of operation indicating that the majority of nitrite-oxidizing bacteria (NOB) activity was suppressed probably as a result of low oxygen environment created within the PPVA gel matrix. However, some portion of nitrate (5-17.6% of the influent ammonia) always appeared in the reactor throughout the operation period. Next-generation sequencing and clone library techniques revealed that NOB with different substrate affinities including Nitrobacter, Nitrospira lineage I and II existed within the gel matrix. The finding speculates that substrate gradient-like microenvironment within the gel matrix probably serves the different physiological groups of NOB to maintain their cells and activities in the reactor. Therefore, instead of using low oxygen environment in gel matrix as a sole control strategy, an additional strategy like promoting free ammonia inhibition in reactor is also needed to affirm the stability of long-term partial nitrification.

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Section: Nob Community Structurementioning

confidence: 97%

“…The process can be promoted by providing environmental conditions that suppress the activity of nitrite-oxidizing bacteria (NOB) while allowing the activity of ammonia-oxidizing bacteria (AOB) to occur. Such conditions include maintaining high pH [1], high temperature (>35°C) [2], and/or low oxygen (0.3-0.5 mg l -1 ) [3,4].…”

Section: Introductionmentioning

confidence: 99%

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2019

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“…6,7 Nitrospira spp. are usually the dominant NOB in domestic wastewater treatment by partial nitritation-anammox, 8 but recently it is known that they also include complete ammonia-oxidizing bacteria (CAOB). 9,10 In fact, the partial nitritation-anammox process can even be overtaken by CAOB, turning into a complete nitrification reactor.…”

Section: Introductionmentioning

confidence: 99%

“…In recent years, anammox-based wastewater nitrogen removal process that combines partial-nitritation with anammox in granular sludge reactors, biofilm reactors, and filters have been scaled up from lab-scale to pilot- and full-scale. − However, domestic wastewater treatment by partial nitritation-anammox is often challenged by the overgrowth of nitrite oxidizing bacteria (NOB). , Nitrospira spp. are usually the dominant NOB in domestic wastewater treatment by partial nitritation-anammox, but recently it is known that they also include complete ammonia-oxidizing bacteria (CAOB). , In fact, the partial nitritation-anammox process can even be overtaken by CAOB, turning into a complete nitrification reactor . However, roles of CAOB in the anammox-based wastewater nitrogen removal process remained unclear, and exploring the relationship between CAOB and AnAOB is of great importance for achieving efficient nitrogen removal.…”

Section: Introductionmentioning

confidence: 99%

Synergy between Comammox and Anammox Bacteria in Wastewater Ammonia Removal

Chai

Xiao

et al. 2023

ACS EST Eng.

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Complete ammonia oxidizing bacteria (CAOB) coexist with canonical nitrifiers, anammox bacteria (AnAOB), and heterotrophs in mainstream wastewater nitrogen removal systems. The cooperation and competition among these populations are dependent on various environmental factors, such as ammonia and dissolved oxygen (DO). In the study, a moving bed biofilm reactor (MBBR) was operated at low DO (0.1–0.3 mg/L) and varied influent NH4 + (phases I–III: 7, 14, and 33 mg N/L) to obtain an autotrophic nitrogen removal community. CAOB was the dominant ammonia oxidizer throughout under the dual effects of low DO and low residual ammonium. In phase I, the residual NH4 + was <0.2 mg N/L, and CAOB tended toward complete ammonia oxidization for gaining more energy rather than secreting nitrite for AnAOB utilization. With the increase in influent NH4 +, AnAOB started to grow and shifted from Ca. Kuenenia (phase II) to Ca. Brocadia dominance (phase III), where residual NH4 + was 0.2–7.6 mg N/L. 15N tracing indicated that nitrite reduction in the MBBR could be mainly attributable to anammox rather than endogenous denitrification. AnAOB also possessed more abundant and diverse nitrite transporter genes (e.g., focA, nirC) than did NOB-Nitrospira for potential efficient nitrite utilization. The CAOB-AnAOB synergy enabled up to ∼35% total nitrogen removal in the MBBR. Microrespirometry tests further revealed that the synergy occurred at DO in the range of 0.01–0.9 mg/L (optimum: 0.3 mg/L). NH4 + and DO concentrations that allow effective CAOB-AnAOB synergy can be applied in improving anammox-based mainstream wastewater nitrogen removal toward low aeration and a carbon footprint.

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“…Liu and Wang (2013) and Wett et al (2013) reported higher 𝐾 𝑂 2 value for AOB when reactors were kept at lower temperature for the long-term. Reports from Li et al (2019a), del Rio et al (2019 and Akaboci et al (2018b) suggested that low DO needed to be supplemented with other strategies to achieve better NOB suppression in mainstream condition. Floating oxygen availability control strategy relies on online monitoring of ammonium, nitrate, or pH to regulate aeration.…”

Section: Fixed Oxygen Availability Setpoint Strategymentioning

confidence: 99%

Membrane aerated biofilm reactor integrated with mainstream anammox processes

Chen¹

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The pursuit of PhD is never an easy journey that could be completed alone. Over my four years of postgraduate study, I have received numerous supports from my supervisors, colleagues, friends, and family members. It is my honour to express my sincere thanks all people who have helped me and to acknowledge their contributions to this thesis.First of all, I am extremely grateful to my main supervisor, Assoc Prof Zhou Yan, for her immense knowledge, inspiring enthusiasm, enlightening guidance and unequivocal trust throughout my course of study. She is a caring supervisor loved by all her students and a perfect career role model in academia. Working with her in the beginning stage of my research profession has been a great privilege and a lifetime fortune for my future endeavours. I would also like to extend my appreciation to my thesis advisory committee members, Assoc Prof Richard Webster and Prof Liu Yu, for their warm supports.

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Effects of extremely low bulk liquid DO on autotrophic nitrogen removal performance and NOB suppression in side‐ and mainstream one‐stage PNA

Cited by 22 publications

References 55 publications

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Synergy between Comammox and Anammox Bacteria in Wastewater Ammonia Removal

Membrane aerated biofilm reactor integrated with mainstream anammox processes

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