Decolorization of Orange Ⅱ using an anaerobic sequencing batch reactor with and without co-substrates 被引量：2

Decolorization of Orange Ⅱ using an anaerobic sequencing batch reactor with and without co-substrates

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摘要 We investigated the decolorization of Orange Ⅱ with and without the addition of co-substrates and nutrients under an anaerobic sequencing batch reactor（ASBR）.The increase in COD concentrations from 900 to 1750 to 3730 mg/L in the system treating 100 mg/L of Orange Ⅱ-containing wastewater enhanced color removal from 27% to 81% to 89%,respectively.In the absence of co-substrates and nutrients,more than 95% of decolorization was achieved by the acclimatized anaerobic microbes in the bioreactor treating 600 mg/L of Orange Ⅱ.The decrease in mixed liquor suspended solids concentration by endogenous lysis of biomass preserved a high reducing environment in the ASBR,which was important for the reduction of the Orange Ⅱ azo bond that caused decolorization.The maximum decolorization rate in the ASBR was approximately 0.17 g/hr in the absence of co-substrates and nutrients. We investigated the decolorization of Orange Ⅱ with and without the addition of co-substrates and nutrients under an anaerobic sequencing batch reactor（ASBR）.The increase in COD concentrations from 900 to 1750 to 3730 mg/L in the system treating 100 mg/L of Orange Ⅱ-containing wastewater enhanced color removal from 27% to 81% to 89%,respectively.In the absence of co-substrates and nutrients,more than 95% of decolorization was achieved by the acclimatized anaerobic microbes in the bioreactor treating 600 mg/L of Orange Ⅱ.The decrease in mixed liquor suspended solids concentration by endogenous lysis of biomass preserved a high reducing environment in the ASBR,which was important for the reduction of the Orange Ⅱ azo bond that caused decolorization.The maximum decolorization rate in the ASBR was approximately 0.17 g/hr in the absence of co-substrates and nutrients.

作者 Soon-An Ong Eiichi Toorisaka Makoto Hirata Tadashi Hano

机构地区 Department of Applied Chemistry School of Environmental Engineering

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2012年第2期291-296,共6页 环境科学学报（英文版）

关键词 anaerobic reduction azo dye decolorization rate endogenous lysis Orange Ⅱ anaerobic reduction azo dye decolorization rate endogenous lysis Orange Ⅱ

分类号 X703 [环境科学与工程—环境工程] X791.03 [环境科学与工程—环境工程]

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