Nitrite accumulation under constant temperature in anoxic denitrification process: The effects of carbon sources and COD/NO _3-N

Ge S.; Peng Y.; Wang S.; Lu C.; Cao X.; Zhu Y.

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Nitrite accumulation under constant temperature in anoxic denitrification process: The effects of carbon sources and COD/NO _3-N

机译：缺氧反硝化过程中恒温条件下亚硝酸盐累积：碳源和COD / NO _3-N的影响

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Effects of external carbon sources and COD/NO _3-N on nitrite accumulation through denitrification were studied at a temperature of 28±2.0°C using mixed activated sludge. Nitrite accumulation was observed for each type of carbon source studied. Glucose resulted in the greatest nitrite accumulation and production rate, which were 14.51±2.41mg/L and 0.121±0.013gN/(gVSSd), respectively. Moreover, a higher COD/NO _3-N ratio ranging from 1.0 to 15.0 increased accumulation to the maximum value of 0.34±0.03gN/(gVSSd). It was assumed that the competition for electrons between nitrite reductase and nitrate reductase led to different reduction rates and finally caused the accumulation. In addition, it was reasonable to use the pH and ORP as proxies for monitoring the real endpoint of the denitrification process with the addition of carbon sources.

机译：在28±2.0℃的温度下，使用混合活性污泥研究了外部碳源和COD / NO _3-N对亚硝酸盐通过反硝化作用累积的影响。对于每种研究的碳源，观察到亚硝酸盐积累。葡萄糖导致最大的亚硝酸盐积累和生产率，分别为14.51±2.41mg / L和0.121±0.013gN /（gVSSd）。而且，较高的COD / NO _3-N比在1.0至15.0的范围内，将积累增加到最大值0.34±0.03gN /（gVSSd）。假定亚硝酸还原酶和硝酸还原酶之间的电子竞争导致不同的还原速率，并最终导致积累。此外，使用pH和ORP作为代理来监测添加碳源的反硝化过程的真正终点是合理的。

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《Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies》 |2012年第1期|共7页
作者
Ge S.; Peng Y.; Wang S.; Lu C.; Cao X.; Zhu Y.;
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正文语种 eng
中图分类生物科学;
关键词
Carbon sources; Denitrification; Glucose; Nitrite accumulation; Step feed;

机译：碳源;反硝化;葡萄糖;亚硝酸盐积累;分步进料;

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1. Nitrite accumulation under constant temperature in anoxic denitrification process: The effects of carbon sources and COD/NO _3-N [J] . Ge S., Peng Y., Wang S., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2012,第1期

机译：缺氧反硝化过程中恒温条件下亚硝酸盐累积：碳源和COD / NO _3-N的影响
2. EFFECTS OF THE COD/NO_3~- -N RATIO AND PH ON THE ACCUMULATION OF DENITRIFICATION INTERMEDIATES WITH AVAILABLE PYRIDINE AS A SOLE ELECTRON DONOR AND CARBON SOURCE [J] . Y.-M. Li, J. Li, G.-H. ZHENG, Environmental Technology . 2008,第12期

机译：COD / NO_3〜--N比值和PH对作为唯一电子供体和碳源的可用吡啶进行反硝化中间体富集的影响
3. Effects of carbon sources, COD/NO2--N ratios and temperature on the nitrogen removal performance of the simultaneous partial nitrification, anammox and denitrification (SNAD) biofilm [J] . Zheng Zhaoming, Li Yun, Li Jun, Water Science and Technology . 2017,第7a8期

机译：碳源，COD / NO2-N比率和温度对同时偏硝化，厌氧和脱氮（蛇烷烃）生物膜的氮去除性能
4. Glucose effects on denitrifier abundance, denitrification gene mrna levels, and denitrification activity in an anoxic soil microcosm [C] . Sherri L. Henderson, Catherine E. Dandle, Claudia Goyer, World Congress of Soil Science . 2011

机译：葡萄糖对缺氧土壤微观分解，脱氮基因mRNA水平和反硝化活性的影响
5. Anoxic Carbon Yield Investigation Using Glycerol as the Carbon Source For Denitrification in Sequencing Batch Reactors. [D] . Dockett, Norman. 2011

机译：顺序批处理反应器中使用甘油作为反硝化碳源的缺氧碳产率研究。
6. Effects of different external carbon sources and electron acceptors on interactions between denitrification and phosphorus removal in biological nutrient removal processes [O] . Xiang Hu, Dominika Sobotka, Krzysztof Czerwionka, 2018

机译：生物营养去除过程中不同外部碳源和电子受体对反硝化与除磷相互作用的影响
7. Effects of different external carbon sources and electron acceptors on interactions between denitrification and phosphorus removal in biological nutrient removal processes [O] . Xiang Hu, Dominika Sobotka, Krzysztof Czerwionka, 2018

机译：不同外部碳源和电子受体对生物营养去除过程中脱氮与磷去除相互作用的影响
8. QSARs for Predicting Reductive Transformation Rate Constants of Halogenated Aromatic Hydrocarbons in Anoxic Sediment Systems [R] . Peunenburg, W. J. G. M., 't Hart, M. J., den Hollander, H. A., 1992

机译：用于预测缺氧沉积体系中卤代芳烃还原转化率常数的QsaRs

Nitrite accumulation under constant temperature in anoxic denitrification process: The effects of carbon sources and COD/NO _3-N

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