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学者姓名:陈学明
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Peracetic acid (PAA), known for its environmentally friendly properties as a oxidant and bactericide, is gaining prominence in decontamination and disinfection applications. The primary product of PAA oxidation is acetate that can serve as an electron acceptor (EA) for the biosynthesis of medium-chain fatty acids (MCFAs) via chain elongation (CE) reactions. Hence, PAA-based pretreatment is supposed to be beneficial for MCFAs production from anaerobic sludge fermentation, as it could enhance organic matter availability, suppress competing microorganisms and furnish EA by providing acetate. However, such a hypothesis has rarely been proved. Here we reveal that PAA-based pretreatment leads to sig-nificant exfoliation of extracellular polymeric substances (EPS) from sludge flocs and disruption of proteinic secondary structures, through inducing highly active free radicals and singlet oxygen. The production of MCFAs increases substantially to 11,265.6 mg COD L-1 , while the undesired byproducts, specifically long-chain alcohols (LCAs), decrease to 723.5 mg COD L-1. Microbial activity tests further demonstrate that PAA pretreatment stimulates the CE process, attributed to the up-regulation of func-tional genes involved in fatty acid biosynthesis pathway. These comprehensive findings provide insights into the effectiveness and mechanisms behind enhanced MCFAs production through PAA-based tech-nology, advancing our understanding of sustainable resource recovery from sewage sludge.(c) 2023 The Authors. Published by Elsevier B.V. on behalf of Chinese Society for Environmental Sciences, Harbin Institute of Technology, Chinese Research Academy of Environmental Sciences. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
Keyword :
Extracellular polymeric substances (EPS) Extracellular polymeric substances (EPS) Medium -chain fatty acids (MCFAs) Medium -chain fatty acids (MCFAs) Metabolic activity Metabolic activity Peracetic acid (PAA) Peracetic acid (PAA) Sewage sludge Sewage sludge
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| GB/T 7714 | Wang, Yufen , Guo, Haixiao , Li, Xuecheng et al. Peracetic acid (PAA)-based pretreatment effectively improves medium-chain fatty acids (MCFAs) production from sewage sludge [J]. | ENVIRONMENTAL SCIENCE AND ECOTECHNOLOGY , 2024 , 20 . |
| MLA | Wang, Yufen et al. "Peracetic acid (PAA)-based pretreatment effectively improves medium-chain fatty acids (MCFAs) production from sewage sludge" . | ENVIRONMENTAL SCIENCE AND ECOTECHNOLOGY 20 (2024) . |
| APA | Wang, Yufen , Guo, Haixiao , Li, Xuecheng , Chen, Xueming , Peng, Lai , Zhu, Tingting et al. Peracetic acid (PAA)-based pretreatment effectively improves medium-chain fatty acids (MCFAs) production from sewage sludge . | ENVIRONMENTAL SCIENCE AND ECOTECHNOLOGY , 2024 , 20 . |
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Polyhydroxyalkanoate (PHA) is a biodegradable biopolymer synthesized from renewable resources, providing sustainable and eco-friendly plastics. The utilization of activated sludge for PHA production has gained prominence due to its cost-effectiveness and abundant availability. Upscaling PHA production from activated sludge can contribute to waste management and resource recovery simultaneously, thereby reducing the dependence on petroleum-based plastics. This review critically examines the progress and challenges in this field, while offering valuable insights into strategies for enhancing productivity, improving product quality, and reducing costs. The analysis primarily focuses on identifying key factors influencing each stage of the three-stage process aimed at increasing productivity. Noteworthy strategies proposed include optimizing the enrichment process and feast/ famine ratio. For high-quality PHA, the emphasis is on oriented acid production, and the selection of appropriate extraction methods is crucial. The review also addresses cost reduction, discussing the simplification of the process through the two-stage process, and integration of nitrogen removal with PHA production. Future research directions are outlined, highlighting the optimization of PHA quality, scalability of production, development of efficient extraction methods, assessment of environmental impacts, and alignment with policy measures. Conclusively, activated sludge-based PHA production shows great promise and necessitates further research and development for industrialization.
Keyword :
Activated sludge Activated sludge Bioplastic Bioplastic Mixed microbial culture (MMC) Mixed microbial culture (MMC) Polyhydroxyalkanoate (PHA) Polyhydroxyalkanoate (PHA) Scaling -up Scaling -up
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| GB/T 7714 | Zhang, Zixin , Wang, Yufen , Wang, Xiaomin et al. Towards scaling-up implementation of polyhydroxyalkanoate (PHA) production from activated sludge: Progress and challenges [J]. | JOURNAL OF CLEANER PRODUCTION , 2024 , 447 . |
| MLA | Zhang, Zixin et al. "Towards scaling-up implementation of polyhydroxyalkanoate (PHA) production from activated sludge: Progress and challenges" . | JOURNAL OF CLEANER PRODUCTION 447 (2024) . |
| APA | Zhang, Zixin , Wang, Yufen , Wang, Xiaomin , Zhang, Yaobin , Zhu, Tingting , Peng, Lai et al. Towards scaling-up implementation of polyhydroxyalkanoate (PHA) production from activated sludge: Progress and challenges . | JOURNAL OF CLEANER PRODUCTION , 2024 , 447 . |
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Microbially-driven alkaline neutralization in bauxite residue by functional microorganisms is a promising approach for the ecological rehabilitation on alkaline disposal areas. However, the alkali resistance and acid secretion mechanism of functional microorganisms are still unknown, which limits their application. Here, saline-alkaline resistance, acid production performance, and differentially expressed genes of Penicillium oxalicum (P. oxalicum, a functional fungus screened from a typical disposal area) were investigated and its bioneutralization efficiency was evaluated. This fungus exhibited high tolerance to alkalinity (pH 12), and salinity (NaCl 2.0 M), and produced a large amount of oxalic acid to reduce the medium pH to 2.0. Transcriptome showed that alkali stress induced the overexpression of genes related to antioxidant and stress-resistant enzymes (GST, KatE) and glycolytic pathway rate-limiting enzymes (HK). The rate of glycolysis and other organic acid metabolism processes was increased with higher stress resistance of P. oxalicum. The integrated application of P. oxalicum and maize straw accelerated the dissolved organic carbon content and stabilized the leachate pH of bauxite residue at about 7.4. 3DEEM and BIOSEM analysis indicated that P. oxalicum maintained high activity in the residue leachate and continuously decomposed the maize straw for their metabolism. P. oxalicum showed strong alkaline resistance, biomass degradation capacity, and alkaline regulation potential, which should be beneficial for microbial-driven alkaline regulation in bauxite residue.
Keyword :
Alkaline regulation Alkaline regulation Bauxite residue Bauxite residue Ecological rehabilitation Ecological rehabilitation Organic acid secretion Organic acid secretion Penicillium oxalicum Penicillium oxalicum
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| GB/T 7714 | Zhang, Yifan , Gao, Hui , Zhao, Dongliang et al. Microbially-driven alkaline regulation: Organic acid secretion behavior of Penicillium oxalicum and charge neutralization in bauxite residue [J]. | ENVIRONMENTAL RESEARCH , 2024 , 240 . |
| MLA | Zhang, Yifan et al. "Microbially-driven alkaline regulation: Organic acid secretion behavior of Penicillium oxalicum and charge neutralization in bauxite residue" . | ENVIRONMENTAL RESEARCH 240 (2024) . |
| APA | Zhang, Yifan , Gao, Hui , Zhao, Dongliang , Chen, Xueming , Zhu, Feng , Li, Yinsheng et al. Microbially-driven alkaline regulation: Organic acid secretion behavior of Penicillium oxalicum and charge neutralization in bauxite residue . | ENVIRONMENTAL RESEARCH , 2024 , 240 . |
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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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Wastewater treatment plants (WWTPs) are being challenged to operate as carbon-neutral and energy-efficient systems. The structural extracellular polymeric substances (St-EPS) in waste-activated sludge (WAS), such as alginate, were revealed to form an architectural gel matrix, hindering the psychrophilic hydrolysis and acidogenesis and its application in nitrate removal. Consequently, volatile fatty acid (VFAs) production for nitrate removal at 15 degree celsius is demonstrated by a novel, enriched psychrophilic consortium for alginate-degrading and nitrate-removing. Both alginate lyase (EC 4.2.2.3) and oligo-alginate lyase (EC 4.2.2.26) are identified for alginate utilization by the metaproteomics analysis. A high nitrate removal rate of 7.6 (WAS as the substrate) to 13.0 (alginate as the substrate) mgN/(gVSS h) was achieved. By combining high-throughput and PacBio sequencing and metagenomics analysis, two genera of Bacteroides (69.4%) and Dysgonomons (12.8%) are revealed to enhance psychrophilic WAS fermentation. The VFAs can be utilized by denitrifiers for nitrate removal in an indirect pathway. Moreover, other genera of denitrifiers (Pseudomonas, 0.11%; and Massilla, 0.003%) can excrete alginate lyase, indicating the dual merits of St-EPS degradation and nitrate removal in the direct pathway. This work extends the application of WAS for denitrifiers, providing a new carbon-neutral and energy-efficient system in WWTPs, especially under psychrophilic conditions.
Keyword :
metagenomics metagenomics metaproteomics metaproteomics nitrate removal nitrate removal psychrophilic consortium of alginate-degrading and nitrate-removing psychrophilic consortium of alginate-degrading and nitrate-removing structural extracellular polymeric substances structural extracellular polymeric substances waste-activatedsludge waste-activatedsludge
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| GB/T 7714 | Wang, Yi-Bo , Tang, Jie , Yan, Yang et al. Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation [J]. | ACS ES&T WATER , 2024 , 4 (5) : 2270-2280 . |
| MLA | Wang, Yi-Bo et al. "Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation" . | ACS ES&T WATER 4 . 5 (2024) : 2270-2280 . |
| APA | Wang, Yi-Bo , Tang, Jie , Yan, Yang , Hong, Si-Di , Zheng, Si-Jie , Huang, Xing-Chen et al. Uncovering the Nonnegligible Mechanism of Degrading Structural Extracellular Polymeric Substances for Nitrate Removal in Psychrophilic (15 degree celsius) Waste-Activated Sludge Fermentation . | ACS ES&T WATER , 2024 , 4 (5) , 2270-2280 . |
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The abundant plastic wastes become an imperative global issue, and how to handle these organic wastes gains growing scientific and industrial interest. Recently, converting plastic wastes into hydrogen fuel has been investigated, and the "waste-to-value" practice accelerates the circular economy. To accelerate the development of plastic -to -hydrogen conversion, in this review, recent advances in plastic -to -hydrogen conversion via thermochemical, photocatalytic, and electrocatalytic routes are analyzed. All of the thermo-, photo-, and electrochemical processes can transform different plastic wastes into hydrogen, and the hydrogen production efficiency depends heavily on the selected techniques, operating parameters, and applied catalysts. The application of rational-designed catalysts can promote the selective production of hydrogen from plastic feedstocks. Further studies on process optimization, cost-effective catalyst design, and mechanism investigation are needed.
Keyword :
Catalysis Catalysis Composites Composites Electrocatalysts Electrocatalysts Hydrogen energy Hydrogen energy Photocatalysts Photocatalysts Plastic wastes Plastic wastes Pyrolysis Pyrolysis Thermochemical conversion Thermochemical conversion Upcycling Upcycling Waste utilization Waste utilization
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| GB/T 7714 | Chen, Zhijie , Wei, Wei , Chen, Xueming et al. Upcycling of plastic wastes for hydrogen production: Advances and perspectives [J]. | RENEWABLE & SUSTAINABLE ENERGY REVIEWS , 2024 , 195 . |
| MLA | Chen, Zhijie et al. "Upcycling of plastic wastes for hydrogen production: Advances and perspectives" . | RENEWABLE & SUSTAINABLE ENERGY REVIEWS 195 (2024) . |
| APA | Chen, Zhijie , Wei, Wei , Chen, Xueming , Liu, Yiwen , Shen, Yansong , Ni, Bing-Jie . Upcycling of plastic wastes for hydrogen production: Advances and perspectives . | RENEWABLE & SUSTAINABLE ENERGY REVIEWS , 2024 , 195 . |
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Traditional microbial electrochemical sensors encounter challenges due to their inherent complexity. In response to these challenges, the microbial potentiometric sensor (MPS) technology was introduced, featuring a straightforward high-impedance measurement circuit tailored for environmental monitoring. Nonetheless, the practical implementation of conventional MPS is constrained by issues such as the exposure of the reference electrode to the monitored water and the absence of methodologies to stimulate microbial metabolism. In this study, our objective was to enhance MPS performance by imbuing it with unique cathodic catalytic properties, specifically tailored for distinct application scenarios. Notably, the anodic region served as the sensing element, with both the cathodic region and reference electrode physically isolated from the analyzed water sample. In the realm of organic monitoring, the sensor without Pt/C coated in the cathodic region exhibited a faster response time (1 h) and lower detection limits (1 mg L-1 BOD, 1 mM acetic acid). Conversely, when monitoring toxic substances, the sensor with Pt/C showcased a lower detection limit (0.004% formaldehyde), while the Pt/C-free sensor demonstrated superior reusability. The sensor with Pt/C displayed a heightened anode biofilm thickness and coverage, predominantly composed of Rhodococcus. In conclusion, this study introduces simple, costeffective, and tailorable biosensors holding substantial promise for water quality monitoring.
Keyword :
Cathodic catalytic activity Cathodic catalytic activity Microbial electrochemical sensors Microbial electrochemical sensors Microbial electrochemical technology Microbial electrochemical technology Microbial potentiometric sensor Microbial potentiometric sensor Sensitivity Sensitivity
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| GB/T 7714 | Cai, Jiayi , Wang, Yue , Al-Dhabi, Naif Abdullah et al. Refining microbial potentiometric sensor performance with unique cathodic catalytic properties for targeted application scenarios [J]. | ENVIRONMENTAL RESEARCH , 2024 , 247 . |
| MLA | Cai, Jiayi et al. "Refining microbial potentiometric sensor performance with unique cathodic catalytic properties for targeted application scenarios" . | ENVIRONMENTAL RESEARCH 247 (2024) . |
| APA | Cai, Jiayi , Wang, Yue , Al-Dhabi, Naif Abdullah , Wu, Gaoying , Pu, Ying , Tang, Wangwang et al. Refining microbial potentiometric sensor performance with unique cathodic catalytic properties for targeted application scenarios . | ENVIRONMENTAL RESEARCH , 2024 , 247 . |
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The discovery of complete ammonium oxidation (comammox) has subverted the traditional perception of twostep nitrification, which plays a key role in achieving biological nitrogen removal from wastewater. Floccular sludge-based treatment technologies are being applied at the majority of wastewater treatment plants in service where detection of various abundances and activities of comammox bacteria have been reported. However, limited efforts have been made to enrich and subsequently characterize comammox bacteria in floccular sludge. To this end, a lab-scale sequencing batch reactor (SBR) in the step-feeding mode was applied in this work to enrich comammox bacteria through controlling appropriate operational conditions (dissolved oxygen of 0.5 +/- 0.1 g-O2/m3, influent ammonium of 40 g-N/m3 and uncontrolled longer sludge retention time). After 215-d operation, comammox bacteria gradually gained competitive advantages over counterparts in the SBR with a stable nitrification efficiency of 92.2 +/- 2.2 %: the relative abundance of Nitrospira reached 42.9 +/- 1.3 %, which was 13 times higher than that of Nitrosomonas, and the amoA gene level of comammox bacteria increased to 7.7 +/- 2.1 x 106 copies/g-biomass, nearly 50 times higher than that of conventional ammonium-oxidizing bacteria. The enrichment of comammox bacteria, especially Clade A Candidatus Nitrospira nitrosa, in the floccular sludge led to (i) apparent affinity constants for ammonium and oxygen of 3.296 +/- 0.989 g-N/m3 and 0.110 +/- 0.004 g-O2/m3, respectively, and (ii) significantly low N2O and NO production, with emission factors being 0.136 +/- 0.026 % and 0.023 +/- 0.013 %, respectively.
Keyword :
Complete ammonium oxidation (comammox) Complete ammonium oxidation (comammox) Floccular sludge Floccular sludge Nitrous oxide(N2O) Nitrous oxide(N2O) Sequencing batch reactor (SBR) Sequencing batch reactor (SBR)
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| GB/T 7714 | Hou, Jiaying , Zhu, Ying , Liu, Jinzhong et al. Competitive enrichment of comammox Nitrospira in floccular sludge [J]. | WATER RESEARCH , 2024 , 251 . |
| MLA | Hou, Jiaying et al. "Competitive enrichment of comammox Nitrospira in floccular sludge" . | WATER RESEARCH 251 (2024) . |
| APA | Hou, Jiaying , Zhu, Ying , Liu, Jinzhong , Lin, Limin , Zheng, Min , Yang, Linyan et al. Competitive enrichment of comammox Nitrospira in floccular sludge . | WATER RESEARCH , 2024 , 251 . |
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The coupling between anammox and nitrate/nitrite-dependent anaerobic methane oxidation (n-DAMO) has been considered a sustainable technology for nitrogen removal from sidestream wastewater and can be implemented in both membrane biofilm reactor (MBfR) and granular bioreactor. However, the potential influence of the accompanying hydrogen sulfide (H 2 S) in the anaerobic digestion (AD)-related methane-containing mixture on anammox/n-DAMO remains unknown. To fill this gap, this work first constructed a model incorporating the C/ N/S-related bioprocesses and evaluated/calibrated/validated the model using experimental data. The model was then used to explore the impact of H2S on the MBfR and granular bioreactor designed to perform anammox/nDAMO at practical levels (i.e., 0-5% (v/v) and 0-40 g/S m 3 , respectively). The simulation results indicated that H2S in inflow gas did not significantly affect the total nitrogen (TN) removal of the MBfR under all operational conditions studied in this work, thus lifting the concern about applying AD-produced biogas to power up anammox/n-DAMO in the MBfR. However, the presence of H2S in the influent would either compromise the treatment performance of the granular bioreactor at a relatively high influent NH 4 + -N/NO2-N ratio (e.g., >1.0) or lead to increased energy demand associated with TN removal at a relatively low influent NH4+-N/NO2-N ratio (e. g., <0.7). Such a negative effect of the influent H 2 S could not be attenuated by regulating the hydraulic residence time and should therefore be avoided when applying the granular bioreactor to perform anammox/n-DAMO in practice.
Keyword :
Anammox Anammox Granular bioreactor Granular bioreactor Hydrogen sulfide(H2S) Hydrogen sulfide(H2S) Membrane biofilm reactor (MBfR) Membrane biofilm reactor (MBfR) Nitrate/nitrite-dependent anaerobic methane Nitrate/nitrite-dependent anaerobic methane oxidation (n-DAMO) oxidation (n-DAMO)
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| GB/T 7714 | Chen, Xueming , Chen, Siying , Chen, Xinyan et al. Impact of hydrogen sulfide on anammox and nitrate/nitrite-dependent anaerobic methane oxidation coupled technologies [J]. | WATER RESEARCH , 2024 , 257 . |
| MLA | Chen, Xueming et al. "Impact of hydrogen sulfide on anammox and nitrate/nitrite-dependent anaerobic methane oxidation coupled technologies" . | WATER RESEARCH 257 (2024) . |
| APA | Chen, Xueming , Chen, Siying , Chen, Xinyan , Tang, Yi , Nie, Wen-Bo , Yang, Linyan et al. Impact of hydrogen sulfide on anammox and nitrate/nitrite-dependent anaerobic methane oxidation coupled technologies . | WATER RESEARCH , 2024 , 257 . |
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In this study, two bioprocess models were first constructed with the newly-discovered comammox process described as one-step and two-step nitrification and evaluated against relevant experimental data. The validated models were then applied to reveal the potential effect of comammox bacteria on the granular bioreactor particularly suitable for undertaking partial nitritation/anammox (PN/A) under different operating conditions of bulk dissolved oxygen (DO) and influent NH4+. The results showed although comammox bacteria-based PN/A could achieve > 80.0 % total nitrogen (TN) removal over a relatively wider range of bulk DO and influent NH4+ (i.e., 0.25–0.40 g‐O2/m3 and 470–870 g‐N/m3, respectively) without significant nitrous oxide (N2O) production (4+ to avoid the undesired full nitrification by comammox bacteria. Comparatively, conventional ammonium‐oxidizing bacteria (AOB)-based PN/A not only required higher bulk DO to achieve > 80.0 % TN removal but also suffered from 1.7 %∼2.8 % N2O production. © 2024 Elsevier Ltd
Keyword :
Bacteria Bacteria Bioconversion Bioconversion Bioreactors Bioreactors Dissolved oxygen Dissolved oxygen Nitrification Nitrification Nitrogen oxides Nitrogen oxides Nitrogen removal Nitrogen removal
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| GB/T 7714 | Zhu, Ying , Hou, Jiaying , Meng, Fangang et al. Role of comammox bacteria in granular bioreactor for nitrogen removal via partial nitritation/anammox [J]. | Bioresource Technology , 2024 , 406 . |
| MLA | Zhu, Ying et al. "Role of comammox bacteria in granular bioreactor for nitrogen removal via partial nitritation/anammox" . | Bioresource Technology 406 (2024) . |
| APA | Zhu, Ying , Hou, Jiaying , Meng, Fangang , Lu, Huijie , Zhang, Yanlong , Ni, Bing-Jie et al. Role of comammox bacteria in granular bioreactor for nitrogen removal via partial nitritation/anammox . | Bioresource Technology , 2024 , 406 . |
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