한국물환경학회지 (Journal of Korean Society on Water Environment)

  • 제16권4호
  • /
  • Pages.541-554
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  • 2000
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  • 2289-0971(pISSN)
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  • 2289-098X(eISSN)
한국물환경학회 (Korean Society on Water Environment)
권호 표지

막분리혐기성소화공정에 있어서 기질분해와 세균군의 분포특성

Characteristics of Substrate Degradation and Bacterial Population in the Membrane Separation Anaerobic Digestion Process

  • 발행 : 2000.12.30
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초록

Experimental study of anaerobic digestion process combined with and without the submerged separation membrane was investigated by using laboratory-scale reactor at the hydraulic retention time of 0.5 day and 1.0 day. The removal efficiencies of carbohydrate at the digester without and with membrane were 84.4 to 86.8 % and 99.6 to 99.7 %, respectively, and the methane gas recovery efficiencies were 0.4 to 1.2 % and 12.3 to 28.7 %. According to the measurement by the most probable numbers method. the numbers of various groups of bacteria in the digesters with membrane were enumerated in the following ranges ; acidogens : $1.7{\times}10^9$ to $5.0{\times}10^9MPN/m{\ell}$, homoacetogens : $5.0{\times}10^7$ to $2.4{\times}10^8MPN/m{\ell}$, $H_2$-utilizing methanogens : $1.3{\times}10^7$ to $9.2{\times}10^8MPN/m{\ell}$, and acetate-utilizing methanogens : $2.3{\times}10^6$ to $2.0{\times}10^8MPN/m{\ell}$. The number of methanogens at the digester with membrane increased by approximately $10^2$ to $10^4$ times in comparison with that of the digester without membrane.

키워드

참고문헌

  1. The 8th U.S./Japan Conference on Sewage Treatment Technology, Washington, D.C. Two-phase anaerobic digestion of organic wastes Ghosh,S.
  2. Biotechn and Bioeng.Symposium v.17 Comparative studies of temperature effects on single-stage and two-phase anaerobic degestion Ghosh,S.
  3. Water.Sci.Technol. v.23 Comparison of one-phase and two-phase anaerobic degestion processes in characteristics of substrate degradation and bacterial population levels Zhang,T.C.(et al.)
  4. J.WPCF v.52 Anaerobic attached-film expanded-bed reactor treatment Switzenbaum,M.S.(et al.)
  5. J.WPCF v.53 Municipal wastewater treatment with anaerobic attached microbial film expanded process Jewel,W.J.(et al.)
  6. Appl.Environ Microbiol. v.48 no.5 Comparison of methane production rate and coenzyme F420 content of methanogenic consortia in anaerobic granular sludge Dolfing,J.(et al.)
  7. Water Sci.Technol. v.18 no.12 Granulation in UASB reactors Dolfing,J.
  8. 衛生工學硏究論文集 v.24 嫌氣性細菌の 自己組立化機構を利用したメタン 醱酵リアクタ?の高速處理特性 原田秀樹;桃井淸至;石浜英二;種市尙仁
  9. 衛生工學硏究論文集 v.23 膜分離活性汚泥法の處理特性 上善弘(外3人)
  10. J.Ferment.Bioeng. v.81 no.1 A. Cross-frow microfiltration of activated sludge using submerged membrane with air bubbling Shimizu,Y.(et al.)
  11. 下水道協會誌論文集 v.29 no.345 膜分離の酸生成相への影響及その處理特性變化 小松敏宏(外1人)
  12. Biotechnol.Bioeng.Symp. v.9 Membrane-controlled digestion : Effect of ultrafiltration on anaerobic digestion of glucose Jeffries,T.W.(et al.)
  13. Biotechnol.Bioeng.Symp. v.10 H.P., Membrane-controlled digestion: Anaerobic production of methane and organic acids Omstead,D.R.(et al.)
  14. 水環境學會誌 v.15 no.3 漠分離嫌氣性消化によゐ下水汚泥の消化に關すゐ硏究-完全消化の可能性の檢討- 綾日出敎(外1人)
  15. Aquatech '86.Anaerobic treatment A grown-up technology A. Microfiltration enhanced anaerobic treatment of industrial wastewater Eggers,E.(et al.)
  16. The 15th Biennial Conference of International Assoication on Water Pollution Research and Control, Japan H. Anaerobic membrane bioreactor treating soybean-protein wastewater Yushina,Y.(et al.)
  17. 水質汚濁硏究 v.14 no.5 分離膜複合化二相式メタン醱酵の比較に關すゐ硏究 油科壽側(外1人)
  18. 微生物學實驗法(12版) 微生物硏究法懇談會
  19. 下水試驗方法 日本下水道協會
  20. Bacteriol.Rev. v.14 The anaerobic mesophilic cellulolytic bacteria Hungate,R.E.
  21. Water Sci.Technol. v.36 no.6-7 Effect of rapid temperature change and HRT on anaerobic acidogenesis Cha,G.C.(et al.)
  22. Appl.Environ.Microbiol. v.51 Microbial ecophysiology of whey biomethanation: Characterization of bacterial trophic population and prevalent species in continuous culture Chartrain,M.(et al.)
  23. 環境工學硏究論文集 v.30 管狀限外ろ過膜の膜透過におけの流涑に影響を及ぼす因子に關すゐ硏究 柳根勇(外2人)
  24. Biores.Technol. v.66 Soluble microbial products(SMP) of acetotrophic methanogenesis Herbert H.P.F.(et al.)
  25. 水環境學會誌 v.19 no.3 膜分離型嫌氣性處理におけゐ脂肪酸含有排水處理に關すゐ硏究 二階堂聰(外2人)
  26. 用水と廢水 v.35 膜分離脫窒素處理方式のフラックス管理の實際 松井謙介
  27. Water Sci.Technol. v.20 Soluble microbial products(SMP) formation kinetics by biofilms Namkung,E.(et al.)
  28. 衛生工學硏究論文集 v.28 低溫域におけゐ酸醱酵特性に及ぼす溫度とHRTの影響 車基喆(外2人)
  29. Appl.Environ.Microbiol. v.36 K., Kinetic parameters and relative turnover of some important catabolic reaction in digesting sludge Kaspar,H.F.(et al.)
  30. Arch.Microbiol. v.119 Acetate metabolism in Methanosarcina Barkeri Weimer,P.J.(et al.)
  31. J.Bacteriol. v.102 Adenosine triphosphate pools in Methanobacterium Roberton,A.M.(et al.)
  32. J.Bacteriol. v.142 Metabolism of formate in Methanobacterium formicicum Schauer,N.L.(et al.)
  33. Biology of anaerobic microorganism Dolfing,J.;Zehnder,A.J.B.(ed.)
  34. Appl.Environ.Microbiol. v.48 Influence of pH on terminal carbon metabolism in anoxic sediment from a mildly acidic lake Phelps,T.J.(et al.)
  35. The Microbial World(5th ed.) Stanir,R.Y.(et al.)