Xenia Christodoulou scite author profile

Microbial electrosynthesis (MES) and anaerobic fermentation (AF) are two biological processes capable of reducing CO, CO, and water into acetic acid, an essential industrial reagent. In this study, we evaluated investment and production costs of acetic acid via MES and AF, and compared them to industrial chemical processes: methanol carbonylation and ethane direct oxidation. Production and investment costs were found high-priced for MES (1.44 £/kg, 1770 £/t) and AF (4.14 £/kg, 1598 £/t) because of variable and fixed costs and low production yields (100 t/y) compared to methanol carbonylation (0.26 £/kg, 261 £/t) and ethane direct oxidation (0.11 £/kg, 258 £/t). However, integrating AF with MES would reduce the release of CO, double production rates (200 t/y), and decrease investment costs by 9% (1366 £/t). This resulted into setting the production costs at 0.24 £/kg which is currently market competitive (0.48 £/kg). This economically feasible bioprocess produced molar flow rates of 4550 mol per day from MES and AF independently. Our findings offer a bright opportunity toward the use and scale-up of MES and AF for an economically viable acetic acid production process.

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Chemical synthesis of food from CO2 for space missions and food resilience

Martínez¹,

Alvarado

Christodoulou

et al. 2021

Journal of CO2 Utilization

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Potential of microbial electrosynthesis for contributing to food production using CO2 during global agriculture-inhibiting disasters

Martínez¹,

Brown²,

Christodoulou³

et al. 2021

Cleaner Engineering and Technology

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Corrigendum to “The use of carbon dioxide in microbial electrosynthesis: Advancements, sustainability and economic feasibility” [Journal of CO2 Utilization 18 (2017) 390-399]

Christodoulou

Okoroafor

Parry

et al. 2017

Journal of CO2 Utilization

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