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化学解耦联剂对活性污泥产率的控制作用 被引量:11

Study on Control of Excess Sludge Production in Activated Sludge Process by Chemical Uncoupler
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摘要 采用3,3′,4′,5-四氯水杨酰苯胺(TCS)作为代谢解耦联剂添加到活性污泥工艺中,进行连续曝气分批培养实验.结果表明:在TCS总投加量相同的情况下,采用一次性大剂量投加的污泥减量化效果好于分次小剂量投加.每d投加12 mg TCS,污泥产量比对照下降了33%,而每2 d一次性投加24 mg TCS,污泥产量比对照下降了55%.污泥的CODCr去除能力有所下降,当一次性投加12 mg时,CODCr去除率比对照下降了12%,但出水氨氮及总氮质量浓度均未受影响.污泥的SVI有所上升,但沉降性能未见有明显变化. 3,3',4'5-tetrachlorosalicylanilide (TCS), served as metabolic uncoupler, was added to activated sludge cultures. Continuous-aeration batch culture test showed that the TCS addition in solid phase is better than in liquid phase, and one-time large-dosage addition is better than split small-dosage addition. TCS was able to reduce sludge yield by 55% when the TCS dosage was 24 mg/(2d), but sludge production was only reduced by 33 % if TCS was added 12 mg every day. The substrate removal capability was decreased by 12 % when dosed 12 mg TCS every other day, but effluent nitrogen concentration was not affected adversely by the presence of TCS regardless of any dosage mode. SVI of sludge were slightly increased by addition of TCS, but sludge setdeability was comparable and not significantly different.
作者 李颖 叶芬霞
机构地区 宁波工程学院化工学院
出处 《环境科学研究》 EI CAS CSCD 北大核心 2006年第3期88-90,共3页 Research of Environmental Sciences
基金 国家自然科学基金资助项目(50478043)
关键词 活性污泥工艺 剩余污泥减量化 3 3' 4' 5-四氯水杨酰苯胺 TCS 化学解耦联剂 activated sludge process excess sludge reduction 3,3',4',5-tetrachlorosalicylanilide(TCS) chemical uncoupler
分类号 X703.1 [环境科学与工程—环境工程]
  • 相关文献

参考文献12

  • 1Cook M, Russell B. Energy spilling reactions of Streptococcus boris and resistance of its membrane to proton conductance [ J ] . Appl Environ Mierobiol, 1994, 60(6) : 1942-1948.
  • 2Tempest W, Niejssel M. Physicological and energetic aspects of bacterial metabolite overproduction [ J ]. FEMS Microbiol Lett,1992, 100(1): 169-176.
  • 3Russell J B, Cook G M. Energetics of bacterial growth: balance of anabolic and catabolic reactions [J]. Microbiol Reviews, 1995,59(1): 48-62.
  • 4Strand S E, Harem G N, Stensel H D. Activated sludge yield reduction using chemical uncouplers [J]. Water Environ Res, 1999,71(4) : 454-458.
  • 5Riveranevares J A, Wyman J F, Vonminden D L, et al. 2,6-ditertbutyl-4-nitrophenol (DBNP) a potentially powerful uncoupler of oxidative phosphorylation [J]. Environ Toxieol Chem, 1995, 14( 1 ) :251-256.
  • 6叶芬霞,陈英旭,冯孝善.化学解耦联剂对活性污泥工艺中污泥产率的影响[J].环境科学,2003,24(6):112-115. 被引量:10
  • 7Low E W, Chase H A, Milner M G, et al. Uncoupling of metabolism to reduce biomass production in the activated sludge process [ J ].Water Res, 2000, 34(12) :3204-3212.
  • 8Low E W, Chase H A. The use of chemical uncouplers for reducing biomass production during biodegradation [ J ]. Water Sci Technol,1998, 37(4/5) :399-402.
  • 9Chen G H, Mo H K, Liu Y. Utilization of a metabolic uncoupler, 3,3' ,4' ,5-tetrachlorosalicylanilide (TCS) to reduce sludge growth in activated sludge culture [J]. Water Res, 2002, 36 ( 8 ) : 2077-2083.
  • 10Chen G H, Mo H K, Saby S. et al. Minimization of activated sludge production by chemically stimulated energy spilling [ J ]. Water Sci Teehnol, 2002, 42(12) : 189-200.

二级参考文献12

  • 1Riveranevares JA, Wyman JF, Vonminden DL et al. 2,6-ditert-butyl-4-nitrophenol (DBNP) a potentially powerful uncoupler of oxidative phosphorylation. Environ Toxicol Chem , 1995, 14(1): 251-256.
  • 2Mayhew M, Stephenson T. Biomass yield reduction: is biochemical manipulation possible without affecting activity sludge process efficiency? Wat Sci Technol , 1998, 38(8-9) :137- 144.
  • 3Low EW, Chase HA, Milner MG, Curtis TP. Uncoupling of metabolism to reduce biomass production in the activated sludge process. War Res , 2000, 34(12):3204-3212.
  • 4Low EW, Chase HA. The use of chemical uncouplers for reducing biomass production during biodegradation. Wat Sci Technol , 1998, 37(4-5) :399-402.
  • 5Chen GH, Mo HK, Liu Y. Utilization of a metabolic uncoupler, 3,3', 4', 5-tetrachlorosalicylanilide (TCS) to reduce sludge growth in activated sludge culture. Wat Res , 2002,36(8) :2077-2083.
  • 6Chen GH, Mo HK, Saby Set al. Minimization of activated sludge production by chemically stimulated energy spilling.War Sci Technol , 2002, 42(12) : 189-200.
  • 7Okey RW, Stensel HI). Uncouplers and activated sludge-the impact on synthesis and respiration. Toxicol Environ Chem , 1993, 40(1):235-254.
  • 8Low EW, Chase HA. Reducing production of excess biomass during wastewater treatment. Wat Res , 1999, 33 (5):1119- 1132.
  • 9Cook M et al. Energy spilling reactions of Streptococcus boris and resistance of its membrane to proton conductance. Appl Environ Microbiol , 1994, 60(6) : 1942- 1948.
  • 10Tempest W, Niejssel M. Physicological and energetic aspects of bacterial metabolite overproduction. FEMS Microbiol Lett , 1992, 100(1): 169-176.

共引文献9

同被引文献131

引证文献11

二级引证文献104

环境科学研究
2006年 第3期

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