在滴流床反应器中使用拉氏梭菌进行半连续合成气发酵过程中的乙醇生产。

Ethanol production during semi-continuous syngas fermentation in a trickle bed reactor using Clostridium ragsdalei.

作者信息

Devarapalli Mamatha, Atiyeh Hasan K, Phillips John R, Lewis Randy S, Huhnke Raymond L

机构信息

Biosystems and Agricultural Engineering Department, Oklahoma State University, Stillwater, OK, USA.

出版信息

Bioresour Technol. 2016 Jun;209:56-65. doi: 10.1016/j.biortech.2016.02.086. Epub 2016 Feb 27.

DOI:10.1016/j.biortech.2016.02.086

PMID:26950756

Abstract

An efficient syngas fermentation bioreactor provides a mass transfer capability that matches the intrinsic kinetics of the microorganism to obtain high gas conversion efficiency and productivity. In this study, mass transfer and gas utilization efficiencies of a trickle bed reactor during syngas fermentation by Clostridium ragsdalei were evaluated at various gas and liquid flow rates. Fermentations were performed using a syngas mixture of 38% CO, 28.5% CO2, 28.5% H2 and 5% N2, by volume. Results showed that increasing the gas flow rate from 2.3 to 4.6sccm increased the CO uptake rate by 76% and decreased the H2 uptake rate by 51% up to Run R6. Biofilm formation after R6 increased cells activity with over threefold increase in H2 uptake rate. At 1662h, the final ethanol and acetic acid concentrations were 5.7 and 12.3g/L, respectively, at 200ml/min of liquid flow rate and 4.6sccm gas flow rate.

摘要

一个高效的合成气发酵生物反应器需具备与微生物内在动力学相匹配的传质能力，以实现高气体转化效率和生产率。在本研究中，在不同气体和液体流速下，评估了拉氏梭菌进行合成气发酵时滴流床反应器的传质和气体利用效率。发酵使用的合成气混合物按体积计为38%的CO、28.5%的CO₂、28.5%的H₂和5%的N₂。结果表明，在R6运行之前，将气体流速从2.3 sccm提高到4.6 sccm，CO吸收速率提高了76%，H₂吸收速率降低了51%。R6之后生物膜的形成提高了细胞活性，H₂吸收速率提高了三倍多。在1662小时时，液体流速为200ml/min、气体流速为4.6 sccm时，最终乙醇和乙酸浓度分别为5.7g/L和12.3g/L。

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在滴流床反应器中使用拉氏梭菌进行半连续合成气发酵过程中的乙醇生产。

Ethanol production during semi-continuous syngas fermentation in a trickle bed reactor using Clostridium ragsdalei.

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