Synergistic and antagonistic effects in anaerobic co-digestion. Analysis of the methane yield kinetics/Efectos sinérgicos y antagonicos en codigestion anaerobia. Analisis de la cinética de rendimiento de metano

Synergistic and antagonistic effects in anaerobic co-digestion. Analysis of the methane yield kinetics/Efectos sinérgicos y antagonicos en codigestion anaerobia. Analisis de la cinética de rendimiento de metano

Anaerobic digestion (AD) is a process of decomposition of organic matter in which the main product is a gaseous mixture called biogas, which has potential as a fuel. Anaerobic co-digestion (ACoD) is a technological alternative to improve the performance of the process, focused on balancing the C/N r...

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Bibliographic Details
Published in:Revista Facultad de Ingeniería no. 107; p. 80
Main Authors: Montesdeoca-Pichucho, Nilo Bayardo, Garibaldi-Alcivar, Katiuska, Baquerizo-Crespo, Ricardo Jose, Gomez-Salcedo, Yunet, Perez-Ones, Osney, Pereda-Reyes, Ileana
Format: Journal Article
Language:Spanish
Published: Universidad de Antioquia, Facultad de Ingenieria 01-04-2023
Subjects:
Biogas
Biomass energy
Methane
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Summary:Anaerobic digestion (AD) is a process of decomposition of organic matter in which the main product is a gaseous mixture called biogas, which has potential as a fuel. Anaerobic co-digestion (ACoD) is a technological alternative to improve the performance of the process, focused on balancing the C/N ratio and diluting inhibitory components. The literature highlights the increase in methane yield through ACoD. This investigation analyzed the mixing effects on methane yield kinetics, using articles that report kinetic coefficients in Cone and Gompertz models modified for binary and ternary mixtures. The analysis of the mixtures considered the sum of the contributions for each mixture using the adjusted kinetic coefficients for the monosubstrates. The mixing effects analysis compared the additive model fitted to the modified Cone and Gompertz models. The comparison made with the coefficients for the additive model and the experimental data presented relevant variations of 10%. This allowed to establish that the mixing effects can influence the methane yield as well as the kinetic constants of the process.
ISSN:0120-6230
DOI:10.17533/udea.redin.20220473