Effects of operational factors on soluble microbial products in a carrier anaerobic baffled reactor treating dilute wastewater 被引量：12

Effects of operational factors on soluble microbial products in a carrier anaerobic baffled reactor treating dilute wastewater

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摘要 The effects of feed strength, hydraulic residence time （HRT）, and operational temperatures on soluble microbial product （SMP） production were investigated, to gain insights into the production mechanism. A carrier anaerobic baffled reactor （CABR） treating dilute wastewater was operated under a wide range of operational conditions, namely, feed strengths of 300-600 mg/L, HRTs of 9- 18 h, and temperatures of 10-28℃. Generally, SMP production increased with increasing feed strength and decreasing temperature. At high temperature （28℃）, SMP production increased with decreasing HRT. As the temperature was decreased to 18 and 10℃, the SMP production was at its peak for 12 h HRT. Therefore, temperature could be an important determinant of SMP production along with HRT. A higher SMP to soluble chemical oxygen demand （SCOD） ratio was found at high temperature and long HRT because of complete volatile fatty acid degradation. SMP accounted for 50%-75% of the SCOD in the last chamber of the CABR. As a secondary metabolite, some SMP could be consumed at lower feed strength. The effects of feed strength, hydraulic residence time （HRT）, and operational temperatures on soluble microbial product （SMP） production were investigated, to gain insights into the production mechanism. A carrier anaerobic baffled reactor （CABR） treating dilute wastewater was operated under a wide range of operational conditions, namely, feed strengths of 300-600 mg/L, HRTs of 9- 18 h, and temperatures of 10-28℃. Generally, SMP production increased with increasing feed strength and decreasing temperature. At high temperature （28℃）, SMP production increased with decreasing HRT. As the temperature was decreased to 18 and 10℃, the SMP production was at its peak for 12 h HRT. Therefore, temperature could be an important determinant of SMP production along with HRT. A higher SMP to soluble chemical oxygen demand （SCOD） ratio was found at high temperature and long HRT because of complete volatile fatty acid degradation. SMP accounted for 50%-75% of the SCOD in the last chamber of the CABR. As a secondary metabolite, some SMP could be consumed at lower feed strength.

作者 FENG Huajun HU Lifang SHAN Dan FANG Chengran HE Yonghua SHEN Dongsheng

机构地区 College of Environmental and Resource Sciences Hangzhou Environmental Protection Co. Ltd. School of Civil Engineering and Architecture Ningbo Free Trade Zone Environmental Protection Bureau

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2008年第6期690-695,共6页 环境科学学报（英文版）

关键词 carrier anaerobic baffled reactor dilute wastewater soluble microbial product hydraulic residence time feed strength temperature carrier anaerobic baffled reactor dilute wastewater soluble microbial product hydraulic residence time feed strength temperature

分类号 Q939 [生物学—微生物学]

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Journal of Environmental Sciences

2008年第6期

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