Unconventional Biological Phosphorus Removal - The Impact of Low DO Levels on Performance, Activity and Population Diversity of EBPR at Full-Scale WRRFs

机译：非常规的生物除磷-低溶解氧水平对满量程WRRF EBPR的性能，活性和种群多样性的影响

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Enhanced biological phosphorus removal (EBPR) treatment plants are designed with aeration zones operated at high DO levels (i.e. 2 mg/L) following unaerated zones. Low DO operation has been considered unfavorable for biological aerobic uptake of phosphorus by PAOs and is avoided in biological P removal plants. However, there are instances where low DO operation (DO=1 mg/L or less) has been proven successful for EBPR operation. The low DO environment has led to phosphate uptake rates under anoxic/low DO conditions similar to aerobic conditions. Multiple studies examined phylogenetic abundance variations and found that in low DO environment GAO clade are detectable, but with low relative abundance and Accumilibacter as the dominant PAO species. This approach can lead to substantial energy-savings while maintaining good bio-P performance.

机译：增强型生物除磷（EBPR）处理厂设计为在无氧区之后以高DO水平（即2 mg / L）运行的曝气区。低溶解氧运行被认为不利于PAO对磷的生物需氧吸收，在生物除磷工厂中应避免使用。但是，在某些情况下，低溶解氧运行（DO = 1 mg / L或更小）已被证明对EBPR运行是成功的。低溶解氧环境导致在缺氧/低溶解氧条件下（类似于有氧条件）的磷酸盐吸收率。多项研究检查了系统发育的丰度变化，发现在低溶解氧环境中，可以检测到GAO进化枝，但相对丰度低，且积累的聚伞菌是主要的PAO物种。这种方法可以导致大量节能，同时保持良好的bio-P性能。

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《Annual Water Environment Federation technical exhibition and conference》|2018年|313-318|共6页
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Jose Jimenez; Catherine Hoar; Pusker Regmi; Kartik Chandran;
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biological phosphorus removal; low DO Bio-P; denitrifying PAO;

机译：生物除磷;低DO Bio-P;反硝化PAO;

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1. Survey of full-scale sidestream enhanced biological phosphorus removal (S2EBPR) systems and comparison with conventional EBPRs in North America: Process stability, kinetics, and microbial populations [J] . Water Environment Research . 2020,第3期

机译：全面研究侧流增强生物除磷（S2EBPR）系统并与北美传统EBPR进行比较：工艺稳定性，动力学和微生物种群
2. Factors affecting the microbial populations at full-scale enhanced biological phosphorus removal (EBPR) wastewater treatment plants in The Netherlands [J] . Carlos M. Lopez-Vazquez, Christine M. Hooijmans, Damir Brdjanovic, Water Research . 2008,第10a11期

机译：荷兰全面增强生物除磷（EBPR）废水处理厂中影响微生物种群的因素
3. Impact of solid residence time (SRT) on functionally relevant microbial populations and performance in full- scale enhanced biological phosphorus removal (EBPR) systems [J] . Water Environment Research . 2020,第3期

机译：固体停留时间（SRT）对功能相关微生物种群的影响以及在全面增强的生物除磷（EBPR）系统中的性能
4. Unconventional Biological Phosphorus Removal - The Impact of Low DO Levels on Performance, Activity and Population Diversity of EBPR at Full-Scale WRRFs [C] . Jose Jimenez, Catherine Hoar, Pusker Regmi, Annual Water Environment Federation technical exhibition and conference . 2018

机译：非常规生物磷去除 - 低培养水平对满量程WRRF的EBPR的性能，活动和人口多样性的影响
5. Mechanisms of the System and Performance Stability in Enhanced Biological Phosphorus Removal (EBPR) Process -Insights from Functionally Relevant Microbial Populations and Intracellular Polymers Dynamics. [D] . Majed, Nehreen. 2011

机译：增强型生物除磷（EBPR）过程中系统的机制和性能稳定性-从功能相关的微生物种群和细胞内聚合物动力学的角度出发。
6. The Impact of Microbial Ecology and Chemical Profile on the Enhanced Biological Phosphorus Removal (EBPR) Process: A Case Study of Northern Wastewater Treatment Works Johannesburg [O] . Ilunga Kamika, Martie Coetzee, Bhekie Brilliance Mamba, 2014

机译：微生物生态学和化学特征对增强生物除磷工艺的影响：以约翰内斯堡北部废水处理厂为例
7. Impact of Influent Carbon to Phosphorus Ratio on Performance and Phenotypic Dynamics in Enhanced Biological Phosphorus Removal (EBPR) System - Insights into Carbon Distribution, Intracellular Polymer Stoichiometry and Pathways Shifts [O] . Nehreen Majed, April Z. Gu 2019

机译：影响碳与磷比对增强生物磷去除（EBPR）系统的性能和表型动力学的影响 - 碳分布，细胞内聚合物化学计量和途径偏移

Unconventional Biological Phosphorus Removal - The Impact of Low DO Levels on Performance, Activity and Population Diversity of EBPR at Full-Scale WRRFs

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