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混凝剂品种对混凝-超滤联合工艺膜污染的影响 被引量:1

Effect of different coagulants on performance of membrane fouling during coagulation-ultrafiltration hybrid process
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摘要 本实验以工业化学合成聚合硫酸铁混凝剂和自制生物聚合硫酸铁为例,考察了铁系混凝剂品种对地表水浊度、TOC和UV254的去除效果,混凝剂品种对混凝-超滤联合工艺处理地表水过程中超滤膜污染的影响。混凝实验结果表明,在10 mg/L(以Fe3+计)最佳投加量下,两类混凝剂对浊度、TOC和UV254的去除率基本相同。超滤膜污染实验结果表明,生物聚合铁预处理水样通量衰减速度略大于化学聚合铁预处理水样;膜污染阻力分析结果显示,随着循环次数的增加,工业化学合成聚合铁预处理水样造成的不可逆污染阻力逐渐增加,而生物聚合铁预处理水样造成的不可逆污染阻力却略有下降;膜污染机理分析表明,2组过滤过程的膜污染类型基本相似,由最初的膜孔堵塞过渡到最终的滤饼层污染。SEM分析表明,生物聚合铁预处理水样的膜污染较为严重。 The lab scale coagulation-ultrafiltration hybrid process for surface water treatment was investiga-ted using two different polymeric ferric sulfate (PFS) coagulants, one synthesized by a chemical method (PFS) and the other synthesized with bacteria (BPFS). As the pretreatment process of ultrafiltration, coagulation was carried out to investigate the removal rate of turbidity, TOC, UV254 and membrane fouling. The result of the co- agulation experiment demonstrated that both PFS and BPFS had the same efficiency for turbidity, TOC, UV25, absorption removal at optimal coagulant dose of 10 mg/L ( Fe^3+) . Dead-end ultrafihration experiment demonstra-ted that, the flux decrease filtrated by the BPFS pretreated water sample is more serious than that by PFS. Re-sistance analysis showed that the total resistance increased with the filtration cycles. And with the increased fil- tration cycles, the irreversible resistance caused by the PFS pretreated water was increasing, however, that caused by the BPFS pretreated water was slightly decreasing. Membrane fouling mechanism was almost supposed as the same. The membrane pores were blocked at the initial stage, then translated into cake layer. SEM picture also showed that the fouling caused by BPFS pretreated water was more serious.
作者 任丹 刘海宁 张凯松
机构地区 中国科学院城市环境研究所 中国科学院研究生院
出处 《环境工程学报》 CAS CSCD 北大核心 2013年第5期1813-1818,共6页 Chinese Journal of Environmental Engineering
基金 厦门市科技计划项目(3502Z20102015) 中国科学院院地合作储备项目
关键词 膜污染 超滤 混凝 生物聚合硫酸铁 聚合硫酸铁 membrane fouling ultrafihration coagulation bio-polymeric ferric sulfate polymericferric sulfate
分类号 X703.1 [环境科学与工程—环境工程]
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  • 1李风亭,任晓红.雾化渍制备聚合硫酸铁新工艺[J].工业水处理,1996,16(3):20-21. 被引量:19
  • 2Bae T H, Tak M T, 2005. Interpretation of fouling characteristics of ultrafiltration membranes during the filtration of membrane bioreactor mixed liquor. Journal of Membrane Science, 264(1-2): 151-160. 被引量:1
  • 3Bouhabila E H, Ben Aim R, Buisson H, 1998. Microfiltration of activated sludge using submerged membrane with air bubbling (application to wastewater treatment). In: Proceedings of Conference of Membrane in Drinking and Industrial Water Production, Amsterdam, 1998. 被引量:1
  • 4Bouhabila E H, Ben Aim R, Buisson H, 2001. Fouling characterisation in membrane bioreactors. Separation and Purification Technology, 22: 123-132. 被引量:1
  • 5Cote P, Buisson H, Praderie M, 1998. Immersed membranes activated sludge process applied to the treatment of municipal wastewater. Water Science and Technology, 38(4-5): 437- 442. 被引量:1
  • 6Davies W J, Le M S, Heath C R, 1998. Intensified activated sludge process with submerged membrane microfiltration. Water Science and Technology, 38(4-5): 421-428. 被引量:1
  • 7Defrance L, Jaffrin M Y, Gupta B, Paullier P, Geaugey V, 2000. Contributions of various constituents of activated sludge to membrane bioreactor fouling. Bioresource Technology, 73: 105-112. 被引量:1
  • 8Fiksdal L, Leiknes T, 2006. The effect of coagulation with MF/UF membrane filtration for the removal of virus in drinking water. Journal of Membrane Science, 279: 364-371 被引量:1
  • 9Gunder B, Krauth K, 1998. Replacement of secondary clarification by membrane separation - results with plate and hollow fiber modules. Water Science and Technology, 38(4-5): 383- 393. 被引量:1
  • 10Ivanovic I, Leiknes T, Odegaard H, 2008. Fouling control by reduction of submicron particles in a BF-MBR with an integrated flocculation zone in the membrane reactor. Separation Science and Technology, 43: 1871-1883. 被引量:1

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  • 1Wang Zhengyang,Teychene B. ,Chalew T. E. A. ,et al. A- luminum-humic colloid hrmation during pre-coagulation for membrane water treatment : Mechanisms and impacts. Water Research ,2014,61 : 171-180. 被引量:1
  • 2Guan J. ,Amal R. , Waite T. D. Effect of aggregate size and structure on specific resistance of biosolids filter cakes. Wa- ter Science and Technology ,2001,44( 10 ) :215-220. 被引量:1
  • 3Mao Ranran,Wang Yan,Zhao Yanxia,et al. Impact of vari- ous coagulation technologies on membrane fouling in coagu- lation/ultrafiltration process. Chemical Engineering Journal, 2013,225:387-393. 被引量:1
  • 4A1-Amoudi A. S. Factors affecting natural organic matter (NOM) and scaling fouling in NF membranes: A review. Desalination ,2010,259 ( 1-3 ) : 1-10. 被引量:1
  • 5Cao Baichuan, Gao Baoyu, Liu Xin, et al. The impact of pH on floe structure characteristic of polyferric chloride in a low DOC and high alkalinity surface water treatment. Water Re- search ,2011,45 ( 18 ) :6181-6188. 被引量:1
  • 6Slavik I. , Mtiller S. , Mokosch R. , et al. Impact of shear stress and pH changes on floe size and removal of dissolved organic matter ( DOM ). Water Research, 2012,46 ( 19 ) : 6543-6553. 被引量:1
  • 7Nanda D. , Tung K. L. , Li Yuling, et al. Effect of pH on membrane morphology, fouling potential, and filtration per- formance of nanofihration membrane for water softening. Journal of Membrane Science ,2010,349 ( 1-2 ) :411-420. 被引量:1
  • 8Zhang Yan,Tang C. Y. Y. , Li Guibai. The role of hydrody- namic conditions and pH on algal-rich water fouling of ul- trafiltration. Water Researeh,2012.46C 15 ) :4783-4789. 被引量:1
  • 9Chakraborti R. K. , Atkinson J. F. , Van Benschoten J. E. Characterization of alum floc by image analysis. Environ- mental Science & Technology ,2000,34 (18) :3969-3976. 被引量:1
  • 10Yang Zhonglian, Gao Baoyu, Yue Qinyan, et al. Effect of pH on the coagulation performance of Al-based coagulants and residual aluminum speeiation during the treatment of humic acid-kaolin synthetic water. Journal of Hazardous Materials ,2010,178 ( 1-3 ) :596-603. 被引量:1

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环境工程学报
2013年 第5期

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