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Literature DB >> 27035481

Biological carbon monoxide conversion to acetate production by mixed culture.

Chul Woo Nam¹, Kyung A Jung², Jong Moon Park³.

Abstract

To utilize waste CO for mixed culture gas fermentation, carbon sources (CO, CO2) and pH were optimized in the batch system to find out the center point and boundary of response surface method (RSM) for higher acetate (HAc) production (center points: 25% CO, 40% CO2, and pH 8). The concentrations of CO and CO2, and pH had significant effects on acetate production, but the pH was the most significant on the HAc production. The optimum condition for HAc production in the gas fermentation was 20.81% CO, 41.38% CO2, 37.81% N2, and pH 7.18. The continuous gas fermentation under the optimum condition obtained 1.66g/L of cell DW, 23.6g/L HAc, 3.11g/L propionate, and 3.42g/L ethanol.

Entities: Chemical

Keywords: Acetate; Box–Behnken design; Carbon monoxide; Gas fermentation; Response surface method

Mesh：

Substances：
Acetates
Carbon Monoxide

Year: 2016 PMID： 27035481 DOI： 10.1016/j.biortech.2016.03.100

Source DB: PubMed Journal: Bioresour Technol ISSN： 0960-8524 Impact factor: 9.642

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Cited

4 in total

4. Enrichment of syngas-converting mixed microbial consortia for ethanol production and thermodynamics-based design of enrichment strategies.

Authors: Antonio Grimalt-Alemany; Mateusz Łężyk; Lene Lange; Ioannis V Skiadas; Hariklia N Gavala
Journal: Biotechnol Biofuels Date: 2018-07-19 Impact factor: 6.040

4 in total

Biological carbon monoxide conversion to acetate production by mixed culture.

1. Conversion of Carbon Monoxide to Chemicals Using Microbial Consortia.

2. The effects of CO₂ and H₂ on CO metabolism by pure and mixed microbial cultures.

3. Biomethanation of blast furnace gas using anaerobic granular sludge via addition of hydrogen.

4. Enrichment of syngas-converting mixed microbial consortia for ethanol production and thermodynamics-based design of enrichment strategies.

Biological carbon monoxide conversion to acetate production by mixed culture.

1. Conversion of Carbon Monoxide to Chemicals Using Microbial Consortia.

2. The effects of CO2 and H2 on CO metabolism by pure and mixed microbial cultures.

3. Biomethanation of blast furnace gas using anaerobic granular sludge via addition of hydrogen.

4. Enrichment of syngas-converting mixed microbial consortia for ethanol production and thermodynamics-based design of enrichment strategies.

2. The effects of CO₂ and H₂ on CO metabolism by pure and mixed microbial cultures.