Abstract
Acidogenesis of sugarcane vinasse at 15 and 20 kgCOD m−3 in a batch bioreactor occurred via acrylate and homoacetogenesis pathways. Both these pathways were incorporated into the Anaerobic Digestion Model Number 1 (ADM1) and they were validated with biomolecular analysis. As a novelty of this work, ADM1 was modified integrating a new lactate consumption pathway to the model (Lactate→Acetate+Propionate+Hydrogen) and the homoacetogenesis (Hydrogen+CO2→Acetate) to initial concentrations of vinasse of 15 and 20 kgCOD m−3. To evaluate the microbial community involved in such fermentative pathways, biomass samples were taken from the reactor operated with vinasse under organic matter concentrations of 15, 20 and 30 kgCOD m−3, which was analyzed by 16S rRNA gene massive sequencing. Moreover, the abundance of hydrogen producing microorganisms and homoacetogens were quantified by q-PCR. It was mathematically demonstrated that the acrylate and homoacetogenesis pathways were able to describe the system at low concentrations of sugarcane vinasse (15 and 20 kgCOD m−3) and the microbial community compositions confirmed the presence of microorganisms with the metabolic pathways hypothesized here.
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