Biological iron oxidation-reduction and the effects on sulfur oxidation-reduction, denitrification and poly-P accumulation in an anaerobic-oxic activated sludge

Yamamoto-Ikemoto R.; Komori T.; Matsui S.

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Biological iron oxidation-reduction and the effects on sulfur oxidation-reduction, denitrification and poly-P accumulation in an anaerobic-oxic activated sludge

机译：生物铁的氧化还原及其对厌氧-氧氧化活性污泥中硫的氧化还原，反硝化和聚-P积累的影响

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Iron oxidation and reduction were examined using the activated sludge from a municipal plant. Iron contents of the activated sludge were 1-2%. Iron oxidation rates were correlated with the initial iron concentrations. Iron reducing rates could be described by the Monod equation. The effects of iron reducing bacteria on sulfate reduction, denitrification and poly-P accumulation were examined. Iron reduction suppressed sulfate reduction by competing with hydrogen produced from protein. Dentrification was outcompeted with iron reduction and sulfate reduction. These phenomena could be explained thermodynamically. Poly-P accumulation was also suppressed by denitrification. The activity of iron reduction was relatively high. [References: 5]

机译：使用市政工厂的活性污泥检查了铁的氧化和还原。活性污泥中的铁含量为1-2％。铁的氧化速率与初始铁浓度相关。铁还原率可以用Monod方程描述。研究了铁还原细菌对硫酸盐还原，反硝化和多聚P积累的影响。铁的还原通过与蛋白质产生的氢竞争而抑制了硫酸盐的还原。降低铁含量和减少硫酸盐含量的竞争超过了硝化作用。这些现象可以用热力学来解释。反硝化也抑制了聚磷的积累。还原铁的活性较高。 [参考：5]

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《Water Science and Technology》 |2002年第2期|共6页
作者
Yamamoto-Ikemoto R.; Komori T.; Matsui S.;
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正文语种 eng
中图分类水利工程;
关键词
Activated sludge; Denitrification; Iron oxidation; Iron reduction; Poly-p accumulation; Sulfate reduction; Filamentous sulfur; Sulfate reduction; Municipal plant; Bacteria;

机译：活性污泥;反硝化;铁氧化;铁还原;多聚体积累;硫酸盐还原;丝状硫;硫酸盐还原;城市植物;细菌;

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1. Biological iron oxidation-reduction and the effects on sulfur oxidation-reduction, denitrification and poly-P accumulation in an anaerobic-oxic activated sludge [J] . Yamamoto-Ikemoto R., Komori T., Matsui S. Water Science and Technology . 2002,第1a2期

机译：生物铁的氧化还原及其对厌氧-氧氧化活性污泥中硫的氧化还原，反硝化和聚-P积累的影响
2. Interactions between filamentous sulfur bacteria, sulfate reducing bacteria and poly-P accumulating bacteria in Anaerobic-oxic activated sludge from a municipal plant [J] . Yamamoto-Ikemoto R., Komori T., Bosque-Hamilton EK., Water Science and Technology . 1998,第4a5期

机译：市政工厂厌氧-氧化活性污泥中丝状硫细菌，硫酸盐还原细菌和聚P积累细菌之间的相互作用
3. Improving the sensitivity of the activated sludge respiration inhibition test and verifying the results using an oxidation-reduction potential electrode [J] . Friedrichs F., Rudolph K. U., Bich Hanh Nguyen, Water Science and Technology . 2017,第1a2期

机译：提高活性污泥呼吸抑制试验的敏感性，并使用氧化还原电位电极验证结果
4. CONTROL OF FILAMENTOUS BULKING AND INTERACTIONS AMONG SULFUR OXIDATION-REDUCTION AND IRON OXIDATION-REDUCTION IN ACTIVATED SLUDGE USING AN IRON COAGULANT [C] . Ryoko Yamamoto-Ikemoto, Saburo Matsui, Tomoaki Komori, Biennial conference of the International Association on Water Quality . 1998

机译：铁凝结剂控制活性污泥中硫氧化还原和铁氧化还原中丝状团块和相互作用的控制
5. Oxidation-reduction potential and organic carbon sources as two control parameters for simultaneous nitrification and denitrification in biological nutrient removal processes. [D] . Zhao, Hong Wang. 1998

机译：氧化还原电位和有机碳源是生物营养去除过程中同时硝化和反硝化的两个控制参数。
6. Oxidation-Reduction Potentials of Bound Iron-Sulfur Proteins of Photosystem I [O] . Bacon Ke, Raymond E. Hansen, Helmut Beinert 1973

机译：光系统I的结合铁硫蛋白的氧化还原电位
7. SULFUR OXIDATION-REDUCTION ACTIVITIES AND MICROBIAL COMMUNITY CHANGE IN ACTIVATED SLUDGE [O] . Naoki MIYAZATO, Ryoko IKEMOTO, Saori TAKAMATSU 2005

机译：硫氧化还原活性和激活污泥的微生物群落变化
8. Oxidation-Reduction Reactions of Organic Sulfur Compounds [R] . Kice, J. L. 1967

机译：有机硫化合物的氧化还原反应

Biological iron oxidation-reduction and the effects on sulfur oxidation-reduction, denitrification and poly-P accumulation in an anaerobic-oxic activated sludge

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