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KMID : 1094720080130010096
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Biotechnology and Bioprocess Engineering
2008 Volume.13 No. 1 p.96 ~ p.101
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Characterization of microbial community and kinetics for spent sulfidic caustic applied autotrophic denitrification
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Byun Im-Gyu
Park Jeung-Jin
Park So-Ra
Lee Tae-Ho
Park Tae-Joo
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Abstract
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Spent sulfidic caustic was applied to sulfur utilizing autotrophic denitrification as the simultaneous source of electron donor and alkalinity. The two experiment set-up of upflow anoxic hybrid growth reactor (UAHGR) and upflow anoxic suspended growth reactor (UASGR) was adopted and nitrate removals were similar in both reactors. Approximately 90% of the initial nitrate was denitrified at nitrate loading rate of 0.15¡0.40 kgNO3 ?/m3¡¤d. The experimental stoichiometric ratio of sulfate production to nitrate removal was ranged from 1.5 to 2.1 mgSO4 2?/mgNO3 ?. During the operation period, denaturing gradient gel electrophoresis (DGGE) analysis of polymerase chain reaction (PCR)-amplified 16S rDNA fragments for the sludge sample of both reactors showed the change of microbial communities. Thiobacillus denitrificans-like microorganism occupied 28.5% (18 clones) of the 63 clones by cloning the PCR products from the sludge sample of UAHGR. Acidovorax avenae, which can reduce nitrate to nitrogen gas while oxidizing phenol (heterotrophic denitrifier), was also found in 7 clones (11.1%). Although an organic carbon source was not added to the medium, a microorganism (Kaistella koreensis) capable of oxidizing organic compounds was found in 7 clones (11.1%). Therefore, the microbial community of spent sulfidic caustic applied autotrophic denitrification process well corresponds to the substrate components of spent sulfidic caustic. Through the batch cultivation of microorganisms in UAHGR, the microbial kinetic coefficients of spent sulfidic caustic applied autotrophic denitrification were estimated to be ¥ì max = 0.097 h?1, k d = 0.0021 h?1, K s = 200 mgNO3 ?/L, and Y = 0.31 mgMLVSS/mgNO3 ?.
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KEYWORD
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spent sulfidic caustic, autotrophic denitrification, microbial community and kinetics, Thiobacillus denitrificans, PCR-DGGE, cloning
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