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http://dx.doi.org/10.5322/JES.2009.18.3.325

A Study on the Behaviour of Organics and Nitrogen Using Upflow Anaerobic Reactor When Acid Fermenter is Added  

Oh, Dae-Min (Department of Environmental Engineering, Hanseo University)
Lee, Young-Shin (Department of Environmental Engineering, Hanseo University)
Publication Information
Journal of Environmental Science International / v.18, no.3, 2009 , pp. 325-331 More about this Journal
Abstract
This study was aimed to behaviour of organics and nitrogen on the upflow anaerobic reactor when a acid fermenter is added. Up flow anaerobic reactor (UAR) reaction will result which operates, COD removal efficiencies of reactor with nitrate loading rate 0.11, 0.66g/L/d were over 77%, but one with 1.0g/L/d was 73.5%. Especially, on NLR 0.11g/L/d, COD removal was 77% and nitrate removal efficiency was 93% simultaneously. The other side upflow anaerobic reactor and acid fermenter (UAR+AF) reaction will result witch operates, COD removal efficiencies of reactor with nitrate loading rate 0.11, 0.66g/L/d were over 85%, but one with 1.0g/L/d was 80%. Especially, on NLR 0.11g/L/d, COD removal was 85% and nitrate removal efficiency was 98% simultaneously. Also, without in reaction condition increase of influent nitrate concentration resulted in the linear decrease of nitrate removal efficiency and nitrate removal efficiency at influent nitrate-nitrogen 800mg/L was 50%. Alkalinity was increased theoretically by denitrification at low nitrate-N concentration, however, it was not increased theoretically at high nitrate-No 40% nitrate-N of UAR was denitrified until 70% height of reactor and 90% nitrate-N of UAR+AF was denitrified until 30% height of reactor Upflow anaerobic reactor was to occur accumulate acid, which TVA/Alkalinity is 0.3$\sim$0.47. Increase of NLR resulted increase of effluent alkalinity and TVA production
Keywords
Upflow anaerobic reactor; Acid fermenter; Organic; Denitrification;
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1 Yoon S. Y., Park S. C., 1995, A study on organic matter removal by UASB, Journal of korean solid waste engineering society, 12(4), 450-457
2 Yu H. Q., Fang H. H. P., Tay J. H., 2001, Enhancement of granulation in upflow anaerobic sludge blanket(UASB) reactors by aluminum chloride, Chemosphere, 44, 31-36   DOI   ScienceOn
3 De Smul. A., Goethals L., Verstraete W., 1999, Effect of COD to sulphate ratio and temperature in expanded-granular-sludge-blanket reactors for sulphate reduction, Process BioChemistry, 34(4), 407-416   DOI   ScienceOn
4 Ahn Y. H., Min K. S., Yun Z., 2000, Enhancement of reactor performance and pelletization by reactor modification in UASB system, Journal of Environment Science Health, 35(9), 1719-1733   DOI   ScienceOn
5 최규철, 권오억, 김동욱, 김용환, 박광하, 이우식, 이징연, 전세진, 정수경, 2004, 수질요염공정시험방법 주해, 동화기술, 788pp
6 Lee H. M., Yang B. S., 1993, Effect of effluent recycling on the operating performance of UASB reactor, Journal of the environmental science, 2(1), 299-310   과학기술학회마을
7 McCarty P. L., 1964, Anaerobic waste treatment fundamentals Part 1, Public Works, 95, 107-112
8 Min K.S., Ahn Y. H., Park S. M., 2002, Dilute wastewater treatment using an upflow anaerobic sludge bed reactor, Journal of KSEE, 24(8), 1379-1389   과학기술학회마을
9 Langenhoff A. A., Stuchey D. C., 2000, Treatment of dilute wastewater using an anaerobic baffled reactor:effect of low temperature, Water Res., 34(15), 3867-3875   DOI   ScienceOn
10 Nachaiyasit S., Stuchey D. C., 1997, Effect of low temperatures on the performance of anaerobic baffled reactor(ABR), Journal of Chem. Technol. Biotechnol., 69, 276-284   DOI   ScienceOn
11 Uemura S., Harada H., 2000, Treatment of sewage by a UASB reactor under moderate to low temperature conditions, Bioresour. Technol., 72, 275-282   DOI   ScienceOn
12 Singh K. S., Harada H., Viraraghaban T., 1996, Low-strength wastewater treatment by a UASB reactor, Bioresour. Technol., 55(96), 187-194   DOI   ScienceOn
13 Song K. B., Bae J. H., Cho K. M., 1996, Operational characteristics of UASB and ABR-I: Organic removal efficiency, Journal of KSEE, 18(2), 159-170
14 Lee Y. S., Kang S. W., Oh D. M., 2004, Study on removal of organics and denitirification in expanded granular sludge blanket, Journal of korean society of urban environment, 4(1), 35-40
15 APHA., AWWA., WEF., 1995, Standard Methods for the examination of water and wastewater, 19th ed., APHA, 4-75