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盐度对EGSB反应器的运行及厌氧颗粒污泥的影响
摘要点击 1886  全文点击 750  投稿时间:2017-01-17  修订日期:2017-03-18
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中文关键词  盐度  膨胀颗粒污泥床反应器  COD去除率  容积产气率  厌氧颗粒污泥  高通量测序
英文关键词  salinity  expanded granular sludge bed reactor(EGSB)  COD removal rate  volumetric gas production rate  anaerobic granular sludge  high-throughput sequencing
作者单位E-mail
谭潇 四川大学建筑与环境学院, 成都 610065 heishihe@163.com 
黄靓 四川大学建筑与环境学院, 成都 610065  
杨平 四川大学建筑与环境学院, 成都 610065 yping63@163.com 
涂弈州 四川大学建筑与环境学院, 成都 610065  
中文摘要
      高盐废水通常含有高 COD浓度,难以处理,引用具有耐盐性能的生物反应器处理高盐废水成为必要. 使用模拟高盐废水在3.267 kg·(m3·d)-1的COD容积负荷下,将Cl-浓度逐步从0提升至10000 mg·L-1,研究盐度对膨胀颗粒污泥床(expanded granular sludge bed,EGSB)反应器的影响. 结果表明,Cl-浓度小于7500 mg·L-1时,对微生物的抑制作用较低;Cl-浓度为7500 mg·L-1时,反应器的COD去除率能保持在98.1%左右,容积产气率能够基本保持在1.3 m3·(m3·d)-1以上,大粒径的厌氧颗粒污泥仍然占据体系的主体;当Cl-浓度为10000 mg·L-1时,反应器中的厌氧颗粒污泥受到严重影响. 采用高通量测序技术对0和5000 mg·L-1两个Cl-浓度下的厌氧颗粒污泥的微生物菌群结构进行分析,结果表明,盐度影响了微生物的种群分布,在5000 mg·L-1的Cl-浓度下,主要的优势菌属由Cl-浓度为0时的MethanoregulaLongilinea变为MethanobacteriumMethanospirillumMethanothrixPaludibacter.
英文摘要
      The existence of high concentrations of salinity and organics would have a great impact on the microorganisms when using bioreactors to treat wastewater. Thus, it is necessary to find bioreactors resistant to high concentrations of salinity. The effect of salinity on an expanded granular sludge bed reactor (EGSB) was studied by increasing the Cl- concentration from 0 to 10000 mg·L-1 using simulated high salinity wastewater with a COD volume loading of 3.267 kg·(m3·d)-1. The results show no obvious inhibitory effect of Cl- on the microorganism when the concentration of Cl- was below 7500 mg·L-1. Above 1.3 m3·(m3·d)-1 volumetric gas production rate was maintained and COD removal rate could achieved 98.1% when the Cl- concentration up to 7500 mg·L-1 while the large particle size of anaerobic granular sludge occupying the majority of of the system. The anaerobic granular sludge was seriously affected when the Cl- concentration as 10000 mg·L-1. The community structure of the anaerobic granular sludge was analyzed using high-throughput sequencing when the Cl- concentration was 0 and 5000 mg·L-1. The results show that the salinity stress produced different dominant groups. The dominant species were Methanobacterium, Methanospirillum, Methanothrix, and Paludibacter when the Cl- concentration was 5000 mg·L-1, but Methanoregula and Longilinea were the dominant species when the Cl- concentration was 0.

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