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Optimum O2:CH4 Ratio Promotes the Synergy between Aerobic Methanotrophs and Denitrifiers to Enhance Nitrogen Removal

机译：最佳的O2：CH4比例可促进有氧甲烷菌和反硝化剂之间的协同作用从而增强除氮能力

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The O2:CH4 ratio significantly effects nitrogen removal in mixed cultures where aerobic methane oxidation is coupled with denitrification (AME-D). The goal of this study was to investigate nitrogen removal of the AME-D process at four different O2:CH4 ratios [0, 0.05, 0.25, and 1 (v/v)]. In batch tests, the highest denitrifying activity was observed when the O2:CH4 ratio was 0.25. At this ratio, the methanotrophs produced sufficient carbon sources for denitrifiers and the oxygen level did not inhibit nitrite removal. The results indicated that the synergy between methanotrophs and denitrifiers was significantly improved, thereby achieving a greater capacity of nitrogen removal. Based on thermodynamic and chemical analyses, methanol, butyrate, and formaldehyde could be the main trophic links of AME-D process in our study. Our research provides valuable information for improving the practical application of the AME-D systems.

机译：在有氧甲烷氧化与反硝化（AME-D）结合的混合培养物中，O2：CH4的比率会显着影响氮的去除。这项研究的目的是研究以四种不同的O2：CH4比率[0、0.05、0.25和1（v / v）]去除AME-D工艺中的氮。在分批测试中，当O2：CH4的比例为0.25时，观察到最高的反硝化活性。在该比例下，甲烷氧化菌产生足够的碳源用于反硝化器，并且氧含量不会抑制亚硝酸盐的去除。结果表明，甲烷氧化菌与反硝化剂之间的协同作用得到了显着改善，从而实现了更大的脱氮能力。基于热力学和化学分析，甲醇，丁酸和甲醛可能是我们研究中AME-D过程的主要营养纽带。我们的研究为改进AME-D系统的实际应用提供了有价值的信息。

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期刊名称 other
作者
Jing Zhu; Xingkun Xu; Mengdong Yuan; Hanghang Wu; Zhuang Ma; Weixiang Wu;
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作者单位

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年(卷),期 -1(8),-1
年度 -1
页码 1112
总页数 10
原文格式 PDF
正文语种
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关键词
aerobic methane oxidation denitrification O2:CH4 ratio intermediate accumulation thermodynamics;

机译：甲烷好氧氧化;反硝化;O2：CH4比;中间积累;热力学;

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专利

1. Optimum O ₂:CH ₄ Ratio Promotes the Synergy between Aerobic Methanotrophs and Denitrifiers to Enhance Nitrogen Removal [J] . Jing Zhu, Xingkun Xu, Mengdong Yuan, Frontiers in Microbiology . 2017,第2期

机译：最佳的O _{2 ：CH _{4 比值促进有氧甲烷菌和反硝化剂之间的协同作用，以提高氮的去除率}}
2. Optimum O ₂:CH ₄ Ratio Promotes the Synergy between Aerobic Methanotrophs and Denitrifiers to Enhance Nitrogen Removal [J] . Jing Zhu, Xingkun Xu, Mengdong Yuan, Frontiers in Microbiology . 2017,第6期

机译：最佳的O _{2 ：CH _{4 比值促进有氧甲烷菌和反硝化剂之间的协同作用，以提高氮的去除率}}
3. Methanol-linked synergy between aerobic methanotrophs and denitrifiers enhanced nitrate removal efficiency in a membrane biofilm reactor under a low O_2CH_4 ratio [J] . Water Research . 2020,第May1期

机译：在低O_2CH_4比下，好氧甲烷氧化菌和反硝化剂之间的甲醇联动协同作用提高了膜生物膜反应器中硝酸盐的去除效率
4. Control of Carbon and Nitrogen Ratio for Nitrogen Removal of Aerobic Denitrifier in a Batch Reactor [C] . Wang Hongyu, Yang Kai, Lv Bin, 2010 4th International Conference on Bioinformatics and Biomedical Engineering . 2010

机译：间歇反应器中好氧反硝化器脱氮的碳氮比控制
5. Design and Characterization of Functional Metal-Organic Frameworks for CO2/CH4 and C2H2/CH4 Separation [D] . Alduhaish, Osamah M. 2017

机译：用于CO2 / CH4和C2H2 / CH4分离的功能性金属有机骨架的设计和表征
6. The Nitrogen-Removal Efficiency of a Novel High-Efficiency Salt-Tolerant Aerobic Denitrifier Halomonas Alkaliphile HRL-9 Isolated from a Seawater Biofilter [O] . Jilong Ren, Chenzheng Wei, Hongjing Ma, 2019

机译：从海水生物滤池中分离出来的新型高效耐盐好氧反硝化器Halomonas Alkaliphile HRL-9的脱氮效率
7. Optimum O2:CH4 Ratio Promotes the Synergy between Aerobic Methanotrophs and Denitrifiers to Enhance Nitrogen Removal [O] . Jing Zhu, Xingkun Xu, Mengdong Yuan, 2017

机译：最佳O2：CH4比例促进好氧甲烷营养物和反硝化菌之间的协同作用，促进氮去除

Optimum O2:CH4 Ratio Promotes the Synergy between Aerobic Methanotrophs and Denitrifiers to Enhance Nitrogen Removal

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