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膜生物反应器中的非丝状菌污泥膨胀 被引量:6

Non-Filamentous Bulking in Membrane Bioreactor
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摘要 研究了膜生物反应器中非丝状茵膨胀的原因以及此类膨胀对污泥混合液过滤性能的影响和通过污泥黏度、胞外聚合物和污泥颗粒粒径三方面对膜生物反应器中的污泥混合液进行了分析;运用死端过滤实验方法,研究了非丝状茵膨胀对污泥混合液过滤性能的影响.实验结果表明,污泥沉降性能与污泥黏度有较好的相关性,活性污泥中的胞外聚合物是引起非丝状茵膨胀的关键因素;膜生物反应器中污泥非丝状茵膨胀主要因反应器中累积的高浓度胞外聚合物所致;非丝状茵污泥膨胀极大影响了污泥混合液的过滤性能,污泥膨胀后过滤阻力急剧增大. The reasons for non-filamentous bulking were investigated and the influence of bulking on the filtration of mixture in membrane bioreactor (MBR) was evaluated. Viscosity, extracellular polymeric substances (EPS)and size distribution of the sludge in MBR were examined. Dead-end filtration test was used to reveal the influence of non-filamentous bulking on filtration of the mixed liquor. Experimental results show that sludge viscosity has good correlativity to sludge settleability; the EPS of activated sludge is a critical factor causing non-filamentous bulking. High concentration of EPS accumulated in MBR causes the non-filamentous sludge bulking, which then affects the filterability of mixture, and causes the filtration resistance to increase dramatically.
作者 孙宝盛 张海丰 齐庚申
机构地区 天津大学环境科学与工程学院
出处 《天津大学学报》 EI CAS CSCD 北大核心 2006年第4期469-473,共5页 Journal of Tianjin University(Science and Technology)
基金 国家863高技术研究发展计划资助项目(2002AA601240).
关键词 膜生物反应器 非丝状菌膨胀 胞外聚合物 过滤阻力 membrane bioreactor non-filamentous bulking extracellular polymeric substances filtration resistance
分类号 X703.3 [环境科学与工程—环境工程]
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  • 1罗贵民 张学中 等.生物化学技术的理论和实验[M].长春:吉林大学出版社,1991.189-190.
  • 2Akiyoshi O and Hideki H. A novel concept for evaluation of biofilm adhesion strength by applying tensile force and shear force[ J ]. Wat Sci Tech, 1998,34 (5 - 6) : 429- 439.
  • 3Azeredo J. Methods to extract the expolymeric matrix from biofilm: a comparative study[J]. Wat Sci Tech, 1999,39(7) : 243-250.
  • 4John A and Nielsen P H. Cell biomass and exopolymer composition in sewer biofilm[J]. Wat Sci Tech, 1998,37(1):17-24.
  • 5Zhang Xiaoqi . Comparison of extraction methods for quantifying extracellular polymers in biofilm[J]. Wat Sci Tech,1999,39(7) :211-218.
  • 6Rosenberger S, Kriiger U, Witzig R, et al. Water Research, 2002,36:413.
  • 7Jefferson B, Laine A L, Judd S J, et al. Wat Sci Tech, 2000,41 (1): 197.
  • 8Seyfield C F, Brockman M F. Membranes in wastewater treatment biological aspect of the separation of biomass with a microfiltration unit. In: New and Emerging Environmental Technologies and Products for Wastewater Treatment and Storm Water Collection, Toronto, Canada.1995.4.
  • 9Masaru U. Membrane Bio-reactor for Wastewater Treatment. In: Proceedings of China-Japan International Symposium on Membrane Hybrid System Applied to Water Treatment, Tianjin:Nankai University,1999.48.
  • 10Huang Xia, Gui Ping, Qian Yi. Effect of sludge retention time on microbial behaviour in a submerged membrane bioreactor [J]. Process Biochemistry, 2001,36(10):1001-1006.

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天津大学学报
2006年 第4期

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