CO2-based production of C2-C6 acids and alcohols: The potential of novel Clostridia

This study compared conversion of CO2 into C2-C6 products by Clostridium carboxidivorans P7 and P20, C. ragsdalei P11, C. ljungdahlii P14 and C. muellerianum P21. The effects of medium components and inoculum growth conditions on CO2 fermentation were evaluated. Fermentations were performed in 250-m...

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Bibliographic Details
Published in:Bioresource technology reports 2024-02, Vol.25, p.101713, Article 101713
Main Authors: Thunuguntla, Rahul, Atiyeh, Hasan K., Huhnke, Raymond L., Tanner, Ralph S.
Format: Article
Language:English
Subjects:
Butanol
CO2 conversion
Ethanol
Hexanol
Novel acetogens
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Summary:This study compared conversion of CO2 into C2-C6 products by Clostridium carboxidivorans P7 and P20, C. ragsdalei P11, C. ljungdahlii P14 and C. muellerianum P21. The effects of medium components and inoculum growth conditions on CO2 fermentation were evaluated. Fermentations were performed in 250-mL bottle assays at 125 rpm and 37 °C, using H2:CO2:N2 (60:20:20) that was fed daily for 360 h. Results showed that CO2 fermentations in corn steep liquor medium outperformed those in yeast extract-based media, with strain P11 producing 4.5 g/L ethanol and strain P21 producing 0.5 g/L hexanol. Alcohol formation was 2- to 4-fold higher using inocula pre-grown on syngas compared to H2:CO2. Strain P21 demonstrated higher C4 and C6 alcohols production compared to other strains. Further improvements are necessary to enhance activity and selectivity for converting CO2 into desired products. [Display omitted] •Five acetogens, Clostridium strains (P11, P7, P14, P20 and P21) were compared.•C. ragsdalei P11 was the top ethanol producer from CO2.•C. muellerianum P21 was the best butanol and hexanol producer from CO2.•CSL medium boosted growth and alcohol production compared to P7 and P11 media.•Syngas inoculum resulted in improved CO2 fermentation than CO2:H2 inoculum.
ISSN:2589-014X
2589-014X
DOI:10.1016/j.biteb.2023.101713