1.Screening of homoacetogen mixed culture converting H2/CO2 to acetate.
Kan LUO ; Bo FU ; Lijuan ZHANG ; Hongbo LIU ; He LIU
Chinese Journal of Biotechnology 2014;30(12):1901-1911
Homoacetogens are a group of microorganisms with application potential to produce chemicals and biofuels by the bioconversion of synthesis gas. In this study, we collected waste activated sludge samples to screen homoacetogens by Hungate anaerobic technique, and studied the effect of pH on acetate and alcohol production from H2/CO2 gas. The mixed culture contained Clostridium ljungdahlii, Lysinibacillus fusiformis and Bacillus cereus. Acetate concentration achieved 31.69 mmol/L when the initial pH was 7. The mixed culture containing homoacetogen could converting H2/CO2 to acetate, which provides an efficient microbial resource for the bioconversion of synthesis gas.
Acetates
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chemistry
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Bacteria
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classification
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Biofuels
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Carbon Dioxide
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Hydrogen
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Sewage
;
microbiology
2.Physicochemical and ecological characteristics of the granular sludge during start-up of Anammox reactor.
Yuxia SONG ; Lei XIONG ; Liyuan CHAI ; Qi LIAO ; Chongjian TANG ; Xiaobo MIN ; Zhihui YANG
Chinese Journal of Biotechnology 2014;30(12):1854-1864
The anaerobic granular sludge from an Internal Circulation (IC) reactor of a paper mill wastewater treatment plant were seeded in an Anammox upflow anaerobic sludge blanket reactor. After 185 days operation, the reactor was finally started up by increasing the influent ammonium and nitrite concentrations to 224 mg/L and 255 mg/L, respectively, with volumetric nitrogen removal rate increasing to 3.76 kg/(m3·d). The physicochemical characteristics of the cultivated Anammox granules were observed by scanning electron microscope, transmission electron microscope and Fourier Transform infrared spectroscopy (FTIR). Results suggested that during the start-up course, the granular sludge initially disintegrated and then re-aggregated. FTIR spectra results revealed that the Anammox granular sludge contained abundant functional groups, indicating that it may also possess good adsorption properties. The ecological structure of the granular sludge, analyzed by the metagenomic sequencing methods, suggested that the relative abundance of the dominant bacterial community in the seeding sludge, i.e., Proteobacteria, Firmicutes, Bacteroidetes, significantly reduced, while Planctomycetes which contains anaerobic ammonium oxidation bacteria remarkably increased from 1.59% to 23.24% in the Anammox granules.
Ammonia
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chemistry
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Bacteria
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Bioreactors
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Nitrogen
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chemistry
;
Sewage
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microbiology
;
Waste Disposal, Fluid
;
methods
;
Waste Water
;
chemistry
3.Application and obstacles of ANAMMOX process.
Jin RENCUN ; Zhengzhe ZHANG ; Yuxin JI ; Hui CHEN ; Qiong GUO ; Yuhuang ZHOU ; Conghui WU ; Rencun JIN
Chinese Journal of Biotechnology 2014;30(12):1804-1816
Anaerobic ammonium oxidation (ANAMMOX), as its essential advantages of high efficiency and low cost, is a promising novel biological nitrogen elimination process with attractive application prospects. Over the past two decades, many processes based on the ANAMMOX reaction have been continuously studied and applied to practical engineering, with the perspective of reaching 100 full-scale installations in operation worldwide by 2014. Our review summarizes various forms of ANAMMOX processes, including partial nitritation-ANAMMOX, completely autotrophic nitrogen removal over nitrite, oxygen limited autotrophic nitrification and denitrification, denitrifying ammonium oxidation, aerobic deammonification, simultaneous partial nitrification, ANAMMOX and denitrification, single-stage nitrogen removal using ANAMMOX and partial nitritation. We also compare the operating conditions for one-stage and two-stage processes and summarize the obstacles and countermeasures in engineering application of ANAMMOX systems, such as moving bed biofilm reactor, sequencing batch reactor and granular sludge reactor. Finally, we discuss the future research and application direction, which should focus on the optimization of operating conditions and applicability of the process to the actual wastewater, especially on automated control and the impact of special wastewater composition on process performance.
Ammonia
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chemistry
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Bioreactors
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Denitrification
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Nitrification
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Nitrites
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chemistry
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Nitrogen
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chemistry
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Oxygen
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chemistry
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Sewage
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chemistry
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Waste Disposal, Fluid
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methods
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Waste Water
;
chemistry
4.Distribution and influence factors of Anammox bacteria in sewage treatment systems.
Bingyu ZHENG ; Yongzhen PENG ; Liang ZHANG ; Anming YANG ; Shujun ZHANG
Chinese Journal of Biotechnology 2014;30(12):1817-1827
Nitrogen removal techniques based on Anammox process are developing rapidly these years. The distribution and diversity of Anammox have become important research directions. A variety of Anammox have been detected till now, of which only Kuenenia and Brocadia are often detected in wastewater treatment systems. In addition, in a single niche there is only one type of Anammox bacteria. However, the distribution mechanism and transformation of Anammox bacteria in different niches are still ambiguous. Therefore, the distribution of Anammox in various conditions was summarized and analyzed in this article. And the key factors influencing the distribution of Anammox were concluded, including substrate concentration and the specific growth rate, sludge properties and microbial niche, the joint action and influence of multiple factors. The engineering significance research on the distribution and influencing factors of Anammox bacteria in the sewage system and proposed research prospects were expounded.
Ammonia
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chemistry
;
Anaerobiosis
;
Bacteria
;
Nitrogen
;
chemistry
;
RNA, Ribosomal, 16S
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Sewage
;
microbiology
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Waste Disposal, Fluid
;
Waste Water
5.Start-up of a full-scale system for short-cut nitrification and Anammox in treatment of pharmaceutical wastewater.
Shuang DING ; Ping ZHENG ; Zonghe ZHANG ; Huifeng LU ; Meng ZHANG ; Datian WU ; Zegao WU
Chinese Journal of Biotechnology 2014;30(12):1889-1900
In order to broaden the application area of the new nitrogen removal technology, a full-scale system for short-cut nitrification and anaerobic ammonium oxidation (Anammox) was investigated in the nitrogen removal from a strong-ammonium pharmaceutical wastewater. When the influent ammonium concentration was (430.40 ± 55.43) mg/L, ammonia removal efficiency was (81.75 ± 9.10)%. The short-cut nitrification and Anammox system could successfully remove nitrogen from the pharmaceutical wastewater. The start-up of short-cut nitrification system took about 74 d and the nitrite accumulation efficiency was (52.11 ± 9.13)%, the two-step mode using synthetic wastewater and actual wastewater was suitable for the start-up of short-cut nitrification system. The start-up of Anammox system took about 145 d and the maximum volumetric nitrogen removal rate was 6.35 kg N/(m3·d), dozens of times higher than those for the conventional nitrification-denitrification process. The strategy achieving Anammox sludge by self-growth and biocatalyst addition was suitable for the start-up of Anammox system.
Ammonia
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chemistry
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Bioreactors
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Drug Industry
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Nitrification
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Nitrites
;
chemistry
;
Nitrogen
;
chemistry
;
Sewage
;
microbiology
;
Waste Disposal, Fluid
;
methods
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Waste Water
;
chemistry
6.Simultaneous removal of carbon and nitrogen from organic-rich wastewater with Anammox.
Chongjun CHEN ; Weijing ZHU ; Xiaoxiao HUANG ; Weixiang WU
Chinese Journal of Biotechnology 2014;30(12):1835-1844
In order to simultaneously remove carbon and nitrogen from organic-rich wastewater, we used an up-flow anaerobic sludge bed/blanket (UASB) reactor that was started up with anammox with high concentration of carbon and nitrogen by gradually raising the organic loading of influent. We optimized the removal of nitrogen and carbon when the chemical oxygen demand (COD) concentration varied from 172 to 620 mg/L. During the entire experiment, the ammonium and total nitrogen removal efficiency was higher than 85%, while the average COD removal efficiency was 56.6%. The high concentration of organic matter did not restrain the activity of anammox bacteria. Based on polymerase chain reaction-denaturing gradient gel electrophoresis (PCR-DGGE) and tapping sequencing analyses, the Planctomycete, Proteobacteria, Chloroflexi, Chlorobi bacteria are detected in the UASB reactor, which indicated complex removal pathway of carbon and nitrogen coexisted in the reactor. However, a part of Planctomycete which referred to anammox bacteria could tolerate a high content of organic carbon, and it provided help for high performance of nitrogen removal in UASB reactor.
Ammonia
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chemistry
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Biological Oxygen Demand Analysis
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Bioreactors
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Carbon
;
chemistry
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Nitrogen
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chemistry
;
Sewage
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Waste Disposal, Fluid
;
methods
;
Waste Water
;
chemistry
7.The toxicity of ZnO and CuO nanoparticles on biological wastewater treatment and its detoxification: a review.
Yuran YANG ; Can ZHANG ; Zhenlun LI
Chinese Journal of Biotechnology 2023;39(3):1026-1039
The wide use of ZnO and CuO nanoparticles in research, medicine, industry, and other fields has raised concerns about their biosafety. It is therefore unavoidable to be discharged into the sewage treatment system. Due to the unique physical and chemical properties of ZnO NPs and CuO NPs, it may be toxic to the members of the microbial community and their growth and metabolism, which in turn affects the stable operation of sewage nitrogen removal. This study summarizes the toxicity mechanism of two typical metal oxide nanoparticles (ZnO NPs and CuO NPs) to nitrogen removal microorganisms in sewage treatment systems. Furthermore, the factors affecting the cytotoxicity of metal oxide nanoparticles (MONPs) are summarized. This review aims to provide a theoretical basis and support for the future mitigating and emergent treatment of the adverse effects of nanoparticles on sewage treatment systems.
Wastewater/toxicity*
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Sewage/chemistry*
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Zinc Oxide/chemistry*
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Waste Disposal, Fluid
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Nanoparticles/chemistry*
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Metal Nanoparticles/chemistry*
;
Nitrogen/metabolism*
;
Water Purification
8.Effect of organic solvent on production of organic acids from municipal sludge.
Su LI ; Xiufen LI ; Jian CHEN ; He LIU
Chinese Journal of Biotechnology 2008;24(9):1637-1642
Organic acids are important chemicals. Municipal sludge can be reused by anaerobic fermentation, from which organic acids could be obtained with liquid-liquid extraction and useful substances be produced. Based on the determination of optimum organic solvent and extractant, it effect on production of volatile fatty acid (VFA) from municipal sludge was investigated in this research. The results showed that the proper organic solvent and extractant were sulfonated kerosene and trialkyl phosphine oxide. And, the VFA production was improved by a slight amount of sulfonated kerosene.
Anaerobiosis
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Cities
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Fatty Acids, Volatile
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isolation & purification
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Fermentation
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drug effects
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Kerosene
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Organic Chemicals
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chemistry
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Sewage
;
chemistry
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Solvents
;
chemistry
9.Heat-alkaline treatment of excess sludge and the potential use of hydrolysate as nitrogen source for microbial lipid production.
Jingyang XU ; Takahiro OURA ; Dehua LIU ; Susumu KAJIWARA
Chinese Journal of Biotechnology 2011;27(3):482-488
To recover and use protein resources in excess sludge and decrease the cost of microbial lipid production, heat-alkaline was used to treat the sludge, and the hydrolysate was preliminarily used as nitrogen source to cultivate Rhodosporidium toruloides AS 2.1389 for lipid accumulation. Firstly, we treated the excess sludge under different alkaline conditions (pH 10, pH 12, pH 13) within the reaction time of 5-10 h to investigate the effect of nitrogen source release. Secondly, we used the sludge hydolysate to culture R. toruloides AS, and test the effect on cell growth. Results showed that treatment of excess sludge at pH 13 for 5 h was the most effective for nitrogen release. However, the hydrolysate obtained at pH 10 (5 h) was the most suitable for culturing R. toruloides AS, and under this condition, the inner-cellular lipid content could reach 35% of the total biomass weight.
Alkalies
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chemistry
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Biofuels
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Culture Techniques
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methods
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Fermentation
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Hot Temperature
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Lipids
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biosynthesis
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Nitrogen
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chemistry
;
Sewage
;
chemistry
;
Yeasts
;
growth & development
;
metabolism
10.Enrichment of anaerobic ammonium oxidation bacteria by expanded-granular sludge bed reactor.
Xiaoli HUANG ; Dawen GAO ; Yan CONG ; Xiaolong WANG
Chinese Journal of Biotechnology 2014;30(12):1845-1853
An expanded-granular sludge bed (EGSB) reactor was set-up with artificial water by seeding a 60 d stored ANAMMOX sludge. The nitrogen removal efficiency of ANAMMOX enrichment culture in the reactor was determined. In addition, the main microbial populations and the relative abundance of ANAMMOX bacteria were investigated by molecular approaches. Results show that the maximum nitrogen removal rate was 3.0 kg-N·m(-3)·d(-1) after 185 d, and the ammonium and nitrite removal efficiencies were all over 85%. Analysis of 16S rRNA gene-cloning indicates that the main microbial population in the ANAMMOX enrichment culture was changed from Candidatus Brocadiafulgid and Candidatus Brocadia brasiliensis (0 day) to Candidatus Jettenia asiatica (185 day). Fluorescence in situ hybridization analysis shows that the relative abundance of ANAMMOX bacteria was increased from (57.69 ± 4.79)% to (83.32 ± 4.40)%. The results of qPCR further indicate that the gene copies of ANAMMOX bacteria in the granules were increased from 1.14 x 10(11) copies/g wet weight to 3.69 x 10(11) copies/g wet weight.
Ammonia
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chemistry
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Anaerobiosis
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Bacteria
;
classification
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Bioreactors
;
microbiology
;
In Situ Hybridization, Fluorescence
;
Nitrites
;
chemistry
;
Nitrogen
;
chemistry
;
RNA, Ribosomal, 16S
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Sewage
;
microbiology