Abstract
This study aims to investigate the anodic reaction mechanisms in direct carbon fuel cell using a carbon/carbonate slurry stirred by Ar bubbling. CO2 and CO production rates were measured during the constant discharge. Gas products were calculated based on complete (C+2CO3 2-→3CO2+4e-) and partial electrochemical oxidation (C+1/2CO3 2-→3/2CO+e-). The impact of Boudouard reaction (C+CO2→2CO) on CO production was also discussed. As a result, an amount of CO was formed without Ar bubbling, whereas CO was not formed with Ar bubbling. The impact of CO2 bubbling on CO formation was insignificant, and calculations of gas products almost agreed with experiments of those. These indicated that CO was formed through not Boudouard reaction but the partial electrochemical oxidation. Moreover, partial electrochemical oxidation helped to explain the trends of open circuit voltages. It was shown that the anodic reactions consisted of complete and partial electrochemical oxidations.
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