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学者姓名:陈学明
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The discovery of comammox bacteria has revolutionized our understanding of nitrification, challenging the conventional paradigm that this process is mediated by two distinct microbial groups. Although comammox bacteria, particularly Candidatus Nitrospira nitrosa, are prevalent with significant activities in wastewater treatment systems, their physiological and biochemical properties, particularly growth substrates-based kinetics, are yet to be fully disclosed. To this end, we first attempted to enrich Ca. N. nitrosa in a laboratory-scale continuous stirred tank reactor fed with mainstream-level ammonium. Following the 40 d operation, a suite of microbial analyses jointly confirmed the unprecedentedly rapid specific enrichment and absolute dominance of Ca. N. nitrosa with the entire gene repertoire needed for completing the full nitrification process in the sludge. Dedicated batch tests then revealed and validated the affinity constants of Ca. N. nitrosa for total ammonium, nitrite and oxygen (0.393 +/- 0.058 mg-N/L, 0.365 +/- 0.001 mg-N/L and 0.006 +/- 0.001 mg-O2/L, respectively), demonstrating high affinities for substrates that could underpin its widely reported competitive presence and functionality in wastewater treatment systems. This work provides the first kinetic characterization of Ca. N. nitrosa, complementing the currently limited understanding of the comammox process while enabling a better evaluation of its important role in the nitrogen cycle across diverse environments.
Keyword :
Candidatus Nitrospira nitrosa Candidatus Nitrospira nitrosa completeammonium oxidation (comammox) completeammonium oxidation (comammox) continuous stirred tank reactor(CSTR) continuous stirred tank reactor(CSTR) kinetics kinetics wastewater treatment wastewater treatment
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| GB/T 7714 | Hou, Jiaying , Zhu, Ying , Shi, Yuanji et al. Enrichment and Kinetic Profiling of Candidatus Nitrospira nitrosa Culture Reveal Mechanisms Underlying Its Prevalence in Wastewater Treatment Systems [J]. | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (29) : 15272-15281 . |
| MLA | Hou, Jiaying et al. "Enrichment and Kinetic Profiling of Candidatus Nitrospira nitrosa Culture Reveal Mechanisms Underlying Its Prevalence in Wastewater Treatment Systems" . | ENVIRONMENTAL SCIENCE & TECHNOLOGY 59 . 29 (2025) : 15272-15281 . |
| APA | Hou, Jiaying , Zhu, Ying , Shi, Yuanji , Lin, Limin , Meng, Fangang , Xu, Meiying et al. Enrichment and Kinetic Profiling of Candidatus Nitrospira nitrosa Culture Reveal Mechanisms Underlying Its Prevalence in Wastewater Treatment Systems . | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (29) , 15272-15281 . |
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This study attempted to compare the enrichment of complete ammonium oxidation (comammox) bacteria, which are affiliated with Nitrospira and not able to generate nitrous oxide (N2O, a potent greenhouse gas) through biological pathways, in two commonly-utilized configurations of floccular sludge reactors, i.e., sequencing batch reactor (SBR) and continuous stirred tank reactor (CSTR), under the ammonium condition of mainstream wastewater (i.e., 40.0 g-N/m(3)). The results in terms of nitrification performance and microbial analyses during 216-d operation showed that compared with SBR offering a fluctuating but generally higher in-situ ammonium concentration (i.e., 1.0-6.0 g-N/m(3)) which was favorable for the growth of ammonium-oxidizing bacteria (AOB, belonging to Nitrosomonas in this study), CSTR managed to lower the in-situ ammonium level to < 2.0 g-N/m(3), thus creating a competitive advantage for comammox bacteria with a highly oligotrophic lifestyle. Such an argument was further supported by dedicated batch tests which revealed that Nitrospira-dominant sludge had a lower maximum ammonium oxidation rate and lower apparent ammonium and oxygen affinity constants than Nitrosomonas-dominant sludge (i.e., 33.5 +/- 2.1 mg-N/h/g-MLVSS vs. 139.9 +/- 26.7 mg-N/h/g-MLVSS, 1.1 +/- 0.1 g-N/m(3) vs. 17.6 +/- 4.6 g-N/m(3), and 0.017 +/- 0.002 g-O-2/m(3) vs. 0.037 +/- 0.013 g-O-2/m(3), respectively), proving the nature of comammox bacteria as a K-strategist. Overall, this study not only provided useful insights into the effective enrichment of comammox bacteria in floccular sludge but also further revealed the interactions between comammox bacteria and AOB, thereby contributing to the future development of comammox-inclusive biological nitrogen removal technologies for sustainable wastewater treatment.
Keyword :
Ammonium-oxidizing bacteria (AOB) Ammonium-oxidizing bacteria (AOB) Complete ammonium oxidation (comammox) bacteria Complete ammonium oxidation (comammox) bacteria Continuous stirred tank reactor (CSTR) Continuous stirred tank reactor (CSTR) r/K-strategists r/K-strategists Sequencing batch reactor (SBR) Sequencing batch reactor (SBR)
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| GB/T 7714 | Zhu, Ying , Hou, Jiaying , Meng, Fangang et al. Comparative enrichment of complete ammonium oxidation bacteria in floccular sludge reactors: Sequencing batch reactor vs. continuous stirred tank reactor [J]. | WATER RESEARCH X , 2025 , 27 . |
| MLA | Zhu, Ying et al. "Comparative enrichment of complete ammonium oxidation bacteria in floccular sludge reactors: Sequencing batch reactor vs. continuous stirred tank reactor" . | WATER RESEARCH X 27 (2025) . |
| APA | Zhu, Ying , Hou, Jiaying , Meng, Fangang , Xu, Meiying , Lin, Limin , Yang, Linyan et al. Comparative enrichment of complete ammonium oxidation bacteria in floccular sludge reactors: Sequencing batch reactor vs. continuous stirred tank reactor . | WATER RESEARCH X , 2025 , 27 . |
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This study aims to formulate the degradation mechanism of polyamide membrane by chlorine, and to assess the role of Ca2+ or Mg2+ involved in chlorination. By adjusting chlorination pH, two competing degradation mechanisms, namely chlorination-promoted hydrogen bond cleavage and chlorination-promoted hydrolysis, were first time proposed. Hydrogen bond cleavage promoted severe compaction (reduced pore radius), while hydrolysis led to a loose but non-compactable structure (increased pore radius), causing opposite trends in membrane filtration performance at different pHs. The pore radius and water flux were reduced by 33% and 69% at chlorination pH 4.0, however, water flux was increased by 45% at chlorination pH 10.0. Therefore, intermolecular rather than intramolecular bonds regulate the rotational freedom and then affect compactness of polyamide layers under pressure. Ca2+ or Mg2+ further amplified these effects of chlorine, i.e., water flux was further reduced by 7%-10% at pH 4.0 and further increased by 23%-48% at pH 7.0-10.0. The coordination between carbonyl oxygen and Ca2+ or Mg2+, evidenced by simulated molecular electrostatic potential and binding energies, initiated excessive hydrogen bond breakage between C--O and N-H. Consequently, it prompted N-chlorination, as non-hydrogen-bonded N-H has a higher chlorination priority than hydrogen- bonded N-H. In addition, Ca2+ or Mg2+ accelerated chlorination-promoted hydrolysis.
Keyword :
Calcium Calcium Chlorination Chlorination Hydrogen bond Hydrogen bond Hydrolysis Hydrolysis Magnesium Magnesium Polyamide membranes Polyamide membranes
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| GB/T 7714 | Yu, Qinyu , Wu, Shuang , Yang, Linyan et al. New insights to chlorination-induced chemical bond cleavage in polyamide membranes: Degradation mechanisms and the role of calcium and magnesium ions [J]. | CHEMICAL ENGINEERING JOURNAL , 2025 , 505 . |
| MLA | Yu, Qinyu et al. "New insights to chlorination-induced chemical bond cleavage in polyamide membranes: Degradation mechanisms and the role of calcium and magnesium ions" . | CHEMICAL ENGINEERING JOURNAL 505 (2025) . |
| APA | Yu, Qinyu , Wu, Shuang , Yang, Linyan , Chen, Xueming , Tao, Min , Wu, Yi et al. New insights to chlorination-induced chemical bond cleavage in polyamide membranes: Degradation mechanisms and the role of calcium and magnesium ions . | CHEMICAL ENGINEERING JOURNAL , 2025 , 505 . |
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The kinetics of polyamide membrane degradation by free chlorine and halide ions (Br- and Cl-) were innovatively evaluated based on physicochemical properties and filtration performance, using water/solute permeability coefficient in addition to bromide incorporation as important indicators. The reaction rate constants for the reduced water and H3BO3 permeability coefficient were 1-2 orders of magnitude higher at 0-1 h than 1-10 h. N-bromination and bromination-promoted hydrolysis are dominant degradation mechanisms at 0-1 h (reflected by the breakage of hydrogen bond, the increased Ca binding content, and the increased charge density), and ring-bromination further occurs at 1-10 h (reflected by the disappearance or weakening of aromatic amide band and the nearly constant hydrogen bond). The more reactive but less abundant brominating agents (Br2O, BrOCl, BrCl, and Br-2) played significant roles in membrane degradation, contradicting the conventional belief that HOBr is the only reactive species. BrCl at pH 4.0 and BrOCl and Br2O at pH 7.0 made significantly higher contributions to membrane degradation than HOBr (>76 % vs. <13 %). The increased contribution of BrCl and Br-2 with the increased [Cl-] and [Br-](ex) (the excess bromide, defined as [Br-](o) - [HOCl](o) when [Br-](o) > [HOCl](o)), respectively, was responsible for the greater reduction of water permeability coefficient. The innovative and simple approach developed in this study provides important insights to evaluate and predict membrane degradation.
Keyword :
Halogenating agents Halogenating agents Halogenation Halogenation Membrane degradation Membrane degradation Polyamide membranes Polyamide membranes Reaction kinetics Reaction kinetics
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| GB/T 7714 | Yang, Linyan , Yu, Haixiang , Zhao, Huihui et al. Degradation of polyamide nanofiltration membranes by free chlorine and halide ions: Kinetics, mechanisms, and implications [J]. | WATER RESEARCH , 2025 , 272 . |
| MLA | Yang, Linyan et al. "Degradation of polyamide nanofiltration membranes by free chlorine and halide ions: Kinetics, mechanisms, and implications" . | WATER RESEARCH 272 (2025) . |
| APA | Yang, Linyan , Yu, Haixiang , Zhao, Huihui , Xia, Caiping , Yu, Qinyu , Chen, Xueming et al. Degradation of polyamide nanofiltration membranes by free chlorine and halide ions: Kinetics, mechanisms, and implications . | WATER RESEARCH , 2025 , 272 . |
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The global atmospheric greenhouse gas (GHG) accumulation trajectory has been subjected to fluctuations in the context of the COVID-19 pandemic. Country-level virus prevalence and geography conditions added complexity to understanding atmospheric GHG accumulation sensitivities in terms of the growth rate. Here, extensive data sets were comprehensively analyzed to capture historical and projected fate of atmospheric GHG concentrations. Although a temporary slowdown was observed during the lockdown, global atmospheric GHG growing rates exhibited a sharp rebound during the early economic recovery after COVID-19, which would threaten climate goals without proactive measures. Despite this consistent global trend, various countries demonstrated differential relative changes in growth rates, representing their specific responses to the pandemic crisis. After systematic consideration of socio-economic and demographic factors and employment of optimal regression models, transportation and industry variables emerged as the strongest predictors for country-specific GHG accumulation sensitivities during lockdown and recovery phases, respectively. Addressing global health and climate change issues would necessitate sustainable government actions and economic decisions in anticipation of future pandemic-related events.
Keyword :
atmospheric greenhouse gas concentration atmospheric greenhouse gas concentration driving forces driving forces growth rate growth rate machine learning machine learning pandemic-related periods pandemic-related periods
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| GB/T 7714 | Wang, Chen , Wei, Wei , Chen, Xueming et al. Unlocking Drivers of Country-Specific Sensitivities of Atmospheric Greenhouse Gas Accumulation: Preparing for Future Pandemic Management [J]. | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (1) : 362-372 . |
| MLA | Wang, Chen et al. "Unlocking Drivers of Country-Specific Sensitivities of Atmospheric Greenhouse Gas Accumulation: Preparing for Future Pandemic Management" . | ENVIRONMENTAL SCIENCE & TECHNOLOGY 59 . 1 (2025) : 362-372 . |
| APA | Wang, Chen , Wei, Wei , Chen, Xueming , Liu, Yiwen , Wijayaratna, Kasun , Ni, Bing-Jie . Unlocking Drivers of Country-Specific Sensitivities of Atmospheric Greenhouse Gas Accumulation: Preparing for Future Pandemic Management . | ENVIRONMENTAL SCIENCE & TECHNOLOGY , 2025 , 59 (1) , 362-372 . |
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Despite the well-reported ability of ammonium-oxidizing bacteria (AOB) to cometabolize non-growth substrates, most relevant studies were substantiated with the ammonium oxidation activity as the driving force and didn't further explore/verify/distinguish the contribution of the hydroxylamine oxidation process of AOB. Therefore, using highly enriched AOB-dominated sludge, a series of dedicated batch tests were conducted in this work to investigate the hydroxylamine-based cometabolic degradation of chloroquine (CLQ), a widely applied drug with a significant environmental concern, and its associated impacts on the nitrogen conversions of AOB. The results indicated that the hydroxylamine oxidation process of AOB could trigger the degradation of CLQ which achieved 0.4-1.2 mg/L CLQ removal under the studied conditions, despite the potentially preferred utilization of CLQ degradation products towards mineralization by AOB over CLQ itself. CLQ and its degradation products wouldn't affect the hydroxylamine oxidation process or the associated N2O production through the hydroxylamine oxidation pathway of AOB. We hope this work will not only provide new perspectives for prospective research on the cometabolic capacity and features of AOB but also inspire the revisit of the literature-reported research on such an important topic.
Keyword :
Ammonium-oxidizing bacteria (AOB) Ammonium-oxidizing bacteria (AOB) Chloroquine (CLQ) Chloroquine (CLQ) Cometabolism Cometabolism Hydroxylamine (NH2OH) Hydroxylamine (NH2OH) Nitrous oxide (N2O) Nitrous oxide (N2O)
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| GB/T 7714 | Chen, Bokai , Wang, Haojie , Shi, Yuanji et al. Hydroxylamine-based cometabolism of ammonium-oxidizing bacteria: chloroquine biodegradation and associated nitrogen conversions [J]. | JOURNAL OF ENVIRONMENTAL MANAGEMENT , 2025 , 385 . |
| MLA | Chen, Bokai et al. "Hydroxylamine-based cometabolism of ammonium-oxidizing bacteria: chloroquine biodegradation and associated nitrogen conversions" . | JOURNAL OF ENVIRONMENTAL MANAGEMENT 385 (2025) . |
| APA | Chen, Bokai , Wang, Haojie , Shi, Yuanji , Yang, Linyan , Ni, Bing-Jie , Chen, Xueming . Hydroxylamine-based cometabolism of ammonium-oxidizing bacteria: chloroquine biodegradation and associated nitrogen conversions . | JOURNAL OF ENVIRONMENTAL MANAGEMENT , 2025 , 385 . |
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This work investigated the impact of hydrazine (N2H4), a key intermediate product of the anaerobic ammonium oxidation (anammox) process and a proposed additive to enhance the metabolism of anammox bacteria, on the hydroxylamine (NH2OH) oxidation process mediated by hydroxylamine oxidoreductase (HAO) in ammoniumoxidizing bacteria (AOB). Through batch tests using highly enriched AOB-dominated sludge, we demonstrated that N2H4 competitively inhibited NH2OH oxidation while significantly stimulating nitrous oxide (N2O) production. Molecular docking confirmed the competitive inhibition relationship between NH2OH and N2H4 for the same active sites of HAO, verifying the higher binding affinity of NH2OH (binding energy: -2.3 kcal/mol) compared with N2H4 (binding energy: -1.7 kcal/mol). The interference of N2H4 was further substantiated with dedicated batch tests initiated with NH4+. The competitive inhibition of <= 10 mg-N/L N2H4 was found to induce significant NH2OH accumulation, elevate N2O production and impair partial nitrification efficiency. This work raised not only awareness about the indirect negative impact of the anammox process on the activity and functionality of AOB but also concerns regarding the application of N2H4 to enhance the activity of anammox bacteria, particularly in partial nitrification/anammox systems.
Keyword :
Ammonium-oxidizing bacteria (AOB) Ammonium-oxidizing bacteria (AOB) Hydrazine (N 2 H 4 ) Hydrazine (N 2 H 4 ) Hydroxylamine (NH 2 OH) Hydroxylamine (NH 2 OH) Hydroxylamine oxidoreductase (HAO) Hydroxylamine oxidoreductase (HAO) Nitrous oxide (N 2 O) Nitrous oxide (N 2 O)
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| GB/T 7714 | Wang, Haojie , Chen, Bokai , Shi, Yuanji et al. Competitive inhibition of hydrazine on hydroxylamine oxidation by ammonium-oxidizing bacteria and its stimulative impact on associated N2O production [J]. | CHEMICAL ENGINEERING JOURNAL , 2025 , 516 . |
| MLA | Wang, Haojie et al. "Competitive inhibition of hydrazine on hydroxylamine oxidation by ammonium-oxidizing bacteria and its stimulative impact on associated N2O production" . | CHEMICAL ENGINEERING JOURNAL 516 (2025) . |
| APA | Wang, Haojie , Chen, Bokai , Shi, Yuanji , Yang, Linyan , Chen, Xueming . Competitive inhibition of hydrazine on hydroxylamine oxidation by ammonium-oxidizing bacteria and its stimulative impact on associated N2O production . | CHEMICAL ENGINEERING JOURNAL , 2025 , 516 . |
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This study provides novel insights into the interactions among humic acid (HA), calcium ion (Ca2+), and nanofiltration membranes, revealing their critical impact on rejecting nine antibiotics and six estrogens, common environmental pollutants. In the presence of HA, the normalized water flux of NF270 and NF90 was decreased to 92% and 89%, respectively, and was further reduced to 71%-83% and 74%-79% with the addition of Ca2+, resulting from the reduced hydrophilicity by HA-Ca-induced deposition. HA reduced antibiotic rejection by 27% for NF270 and 3% for NF90, attributed to weakened charge repulsion and size exclusion (reflected by decreased membrane surface charge and boron rejection). Adding Ca2+ further decreased antibiotic rejection by up to 48% for NF270 and 6% for NF90, as charge repulsion and size exclusion were further diminished. HA also decreased estrogen rejection by 8%-16% for NF270 and 5%-14% for NF90, due to weakened size exclusion. After adding Ca2+, estrogen rejection showed inconsistent trends due to competing effects of size exclusion and hydrophobic interaction. Therefore, size exclusion and charge repulsion are the main rejection mechanisms for the negatively charged antibiotics, however, size exclusion and hydrophobic interaction are for the neutral and hydrophobic estrogens. The reduced membrane permeability and selectivity highlight the importance of effectively managing organic matter and divalent cations in feedwater to ensure both treatment efficiency and long-term membrane stability.
Keyword :
Antibiotics Antibiotics Calcium Calcium Estrogens Estrogens Humic acid Humic acid Nanofiltration Nanofiltration
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| GB/T 7714 | Yu, Qinyu , Yang, Linyan , Li, Yejin et al. Effect of water matrix on the removal of antibiotics and estrogens by nanofiltration membranes [J]. | SEPARATION AND PURIFICATION TECHNOLOGY , 2025 , 364 . |
| MLA | Yu, Qinyu et al. "Effect of water matrix on the removal of antibiotics and estrogens by nanofiltration membranes" . | SEPARATION AND PURIFICATION TECHNOLOGY 364 (2025) . |
| APA | Yu, Qinyu , Yang, Linyan , Li, Yejin , Chen, Xueming , Cao, Guomin , Meng, Shujuan et al. Effect of water matrix on the removal of antibiotics and estrogens by nanofiltration membranes . | SEPARATION AND PURIFICATION TECHNOLOGY , 2025 , 364 . |
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This study compared the simulation results of the side-stream membrane-aerated biofilm reactor (MABR) in terms of total nitrogen (TN) removal and N2O production obtained by the conventional comammox-exclusive biological nitrogen removal (BNR) model and the novel BNR model with comammox-related model structures/parameters. Even though the conventional comammox-exclusive MABR obtained >85 % TN removal over a wide range of substrate conditions and achieved up to similar to 92.0 % TN removal, it suffered from 0.90 %-4.80 % N2O production. Comparatively, despite the significantly lower N2O production (0.01 %-0.06 %), due to the undesired full nitrification of comammox bacteria, the novel comammox-inclusive MABR failed to provide adequate nitrite for anammox bacteria under exceeding substrate conditions and only obtained the maximum similar to 88.0 % TN removal through comammox bacteria-based partial nitritation/anammox. Both MABRs should be operated at a moderate hydraulic retention time (e.g., 4.0 d) with a sufficient biofilm thickness (e.g., >= 300 mu m) to attain efficient TN removal and reduced N2O production.
Keyword :
Anammox Anammox Complete ammonium oxidation (comammox) Complete ammonium oxidation (comammox) Membrane-aerated biofilm reactor (MABR) Membrane-aerated biofilm reactor (MABR) Modeling Modeling Partial nitritation Partial nitritation
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| GB/T 7714 | Hou, Jiaying , Zhu, Ying , Meng, Fangang et al. Impact of comammox process on membrane-aerated biofilm reactor for autotrophic nitrogen removal [J]. | WATER RESEARCH X , 2025 , 28 . |
| MLA | Hou, Jiaying et al. "Impact of comammox process on membrane-aerated biofilm reactor for autotrophic nitrogen removal" . | WATER RESEARCH X 28 (2025) . |
| APA | Hou, Jiaying , Zhu, Ying , Meng, Fangang , Ni, Bing-Jie , Chen, Xueming . Impact of comammox process on membrane-aerated biofilm reactor for autotrophic nitrogen removal . | WATER RESEARCH X , 2025 , 28 . |
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Biotic-abiotic hybrid systems are promising technologies to enhance methane production in anaerobic wastewater treatment. However, the dense structure of the extracellular polymeric substances (EPS) present in anaerobic granular sludge (AGS) poses challenges with respect to the implementation of hybrid systems and efficient interspecies electron transfer. In this study, the use of AGS with a Ni/Fe layered double hydroxide@activated carbon (Ni/Fe LDH@C-AGS) was investigated in an anaerobic membrane bioreactor (AnMBR). The hybrid system showed a significant increase of 82% in methane production. Further research revealed that Ni/Fe LDH@C regulated the dense structure of EPS, stimulated the production of cytochromes, and facilitated the decomposition of nonconductive substances. Surprisingly, the hybrid system also promoted resistance to membrane fouling and extended membrane life by 81%. This study provides insights into the operation of a biotic-abiotic hybrid system by regulating the dense structure of EPS ultimately resulting in an enhanced methane production.
Keyword :
Anaerobic granular sludge Anaerobic granular sludge Extracellular polymeric substances Extracellular polymeric substances Interspecies electron transfer Interspecies electron transfer Membrane fouling Membrane fouling Methanogenesis Methanogenesis
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| GB/T 7714 | Jiang, Zhuwu , Tang, Yi , Chen, Xinyan et al. Enhancing electricity-driven methanogenesis by assembling biotic-abiotic hybrid system in anaerobic membrane bioreactor [J]. | BIORESOURCE TECHNOLOGY , 2024 , 391 . |
| MLA | Jiang, Zhuwu et al. "Enhancing electricity-driven methanogenesis by assembling biotic-abiotic hybrid system in anaerobic membrane bioreactor" . | BIORESOURCE TECHNOLOGY 391 (2024) . |
| APA | Jiang, Zhuwu , Tang, Yi , Chen, Xinyan , Chen, Xueming , Wang, Haoshuai , Zhang, Hongyu et al. Enhancing electricity-driven methanogenesis by assembling biotic-abiotic hybrid system in anaerobic membrane bioreactor . | BIORESOURCE TECHNOLOGY , 2024 , 391 . |
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