Enhancing butanol production by Clostridium beijerinckii through cathodic electrofermentation approach

Author:

Molognoni Daniele1ORCID,Vega Maria1,de Vrije Truus2,Contreras Ana Lopez2,Bosch Montse1,Bosch‐Jimenez Pau1,Borràs Eduard1

Affiliation:

1. Leitat Technological Center Barcelona Spain

2. Wageningen Food & Biobased Research Wageningen The Netherlands

Abstract

AbstractBACKGROUNDBiobutanol, produced by solventogenic bacteria like Clostridium beijerinckii through acetone, butanol, and ethanol (ABE) fermentation, is a promising green alternative to fossil fuels. However, this ABE fermentation suffers drawbacks, such as a relatively low productivity that limits its industrial deployment. Electro‐fermentation (EF) can modify the intracellular ratio of oxidized nicotinamide adenine dinucleotide to reduced nicotinamide (NAD+/NADH), a critical factor for butanol synthesis by C. beijerinckii, thus allowing higher product titers (or productivity) to be reached.RESULTSThe present study focuses on glucose‐based ABE‐EF at laboratory‐scale. Three replicate EF reactors (300 mL) were constructed and used to grow C. beijerinckii. Different cathode materials were electrochemically characterized and tested. The effect of voltage application on process productivity was assessed by performing chronoamperometry tests at constant cathode potential (Ecat), ranging from −0,7 to −1,0 V vs Ag/AgCl. These trials were compared with a benchmark ABE fermentation that was performed without voltage application. Poising Ecat at −0,8 V vs Ag/AgCl resulted in the optimal EF scenario. In these conditions, the specific growth rate of bacteria was 73% higher than the benchmark ABE fermentation, with a productivity of 125,6 mg‐butanol/L/h, a process yield of 0,15 g‐butanol/g‐glucose, and a selectivity for butanol of 87% (34%, 25%, and 11% higher than the benchmark fermentation, respectively). The addition of 0,5 mM neutral red as redox mediator in the broth led to a further improvement of butanol productivity (152,9 mg L h−1), requiring a very low energy consumption of 0,02 kWh/kg‐butanol to run the EF process.CONCLUSIONApplying EF enhances the ABE fermentation in terms of butanol production, selectivity, and energy consumption. © 2023 Society of Chemical Industry (SCI).

Funder

Horizon 2020 Framework Programme

European Commission

Publisher

Wiley

Subject

Inorganic Chemistry,Organic Chemistry,Pollution,Waste Management and Disposal,Fuel Technology,Renewable Energy, Sustainability and the Environment,General Chemical Engineering,Biotechnology

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