在间歇式反应器中苯酚降解过程中本地混合微生物群落的生长动力学

Growth kinetics of an indigenous mixed microbial consortium during phenol degradation in a batch reactor.

作者信息

Saravanan Pichiah, Pakshirajan K, Saha Prabirkumar

机构信息

Department of Chemical Engineering, Indian Institute Technology Guwahati, Assam, India.

出版信息

Bioresour Technol. 2008 Jan;99(1):205-9. doi: 10.1016/j.biortech.2006.11.045. Epub 2007 Jan 22.

DOI:10.1016/j.biortech.2006.11.045

PMID:17236761

Abstract

Biodegradation of phenol by a mixed microbial culture, isolated from a sewage treatment plant, was investigated in batch shake flasks. A minimum concentration of 100 and a maximum of 800 mg 1(-1) of phenol in the media were adapted in the degradation study. The phenol degradation rate varied largely and was less than 10 mg l(-1)h(-1) at both extremes of the initial concentrations in the media. The degradation rate was maximum 15.7 mg l(-1)h(-1) at 400 mg l(-1) phenol. The culture followed substrate inhibition kinetics and the specific growth rate were fitted to Haldane and Han-Levenspiel models. Between the two models the Han-Levenspiel was found to be a better fit with a root mean square error of 0.0211. The biokinetics constants estimated using these models showed good potential of the mixed microbial culture in phenol degradation.

摘要

对从污水处理厂分离出的混合微生物培养物对苯酚的生物降解进行了分批摇瓶研究。在降解研究中，培养基中苯酚的最低浓度为100mg/L，最高浓度为800mg/L。苯酚降解率变化很大，在培养基初始浓度的两个极端情况下均低于10mg/(L·h)。在苯酚浓度为400mg/L时，降解率最高，为15.7mg/(L·h)。该培养物遵循底物抑制动力学，比生长速率符合Haldane模型和Han-Levenspiel模型。在这两个模型中，发现Han-Levenspiel模型拟合效果更好，均方根误差为0.0211。使用这些模型估计的生物动力学常数表明混合微生物培养物在苯酚降解方面具有良好的潜力。

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在间歇式反应器中苯酚降解过程中本地混合微生物群落的生长动力学

Growth kinetics of an indigenous mixed microbial consortium during phenol degradation in a batch reactor.

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