Biohydrogen, Volatile Fatty Acids, and Biomethane from Mezcal Vinasses—A Dark Fermentation Process Evaluation
Sergio A. Díaz-Barajas,
Iván Moreno-Andrade,
Edson B. Estrada-Arriaga,
Liliana García-Sánchez,
Marco A. Garzón-Zúñiga
Affiliations
Sergio A. Díaz-Barajas
Laboratorio de Evaluación, Desarrollo e Innovación de Tecnología del Agua, Instituto Politécnico Nacional-CIIDIR-Durango, Sigma 119, 20 de Noviembre II, Durango 34220, Mexico
Iván Moreno-Andrade
Laboratory of Research on Advanced Processes for Water Treatment, Juriquilla Academic Unit, Institute of Engineering, National Autonomous University of Mexico, Blvd. Juriquilla 3001, Querétaro 76230, Mexico
Edson B. Estrada-Arriaga
Subcoordinación de Sistemas de Saneamiento y Reutilización de Aguas Residuales, Instituto Mexicano de Tecnología del Agua, Paseo Cuauhnáhuac 8532, Progreso, Jiutepec 62550, Mexico
Liliana García-Sánchez
Subcoordinación de Sistemas de Saneamiento y Reutilización de Aguas Residuales, Instituto Mexicano de Tecnología del Agua, Paseo Cuauhnáhuac 8532, Progreso, Jiutepec 62550, Mexico
Marco A. Garzón-Zúñiga
Laboratorio de Evaluación, Desarrollo e Innovación de Tecnología del Agua, Instituto Politécnico Nacional-CIIDIR-Durango, Sigma 119, 20 de Noviembre II, Durango 34220, Mexico
Mezcal is a drink made in Mexico, the production of which generates vinasses with a high content of organic matter (OM) that is not utilized. However, these residues have the potential to be drawn upon in dark fermentation (DF) processes to obtain biogas rich in biohydrogen, biomethane, and volatile fatty acids (VFAs) with the potential to become biofuels. In the present work, the effect of reaction time (RT) and organic load (OL) was assessed based on the efficiency of removing OM, the production of VFAs, and the generation and composition of biogas in a process of DF fed with mezcal vinasses. The results show that increasing the RT and decreasing the OL increases COD removal but decreases biohydrogen production. The maximum production of H2 (64 ± 21 NmL H2/Lreactor) was obtained with the lowest RT (1 d) and the highest OL (13.5 gCODm3d−1), while the highest accumulation of VFAs (2007 ± 327 mg VFA/L) was obtained with an RT of 3 d. It was determined that RT and OL are key parameters in DF processes for biohydrogen and VFA production.
