This study investigated the effect of localized mechanical stirring on the performance and organic matter conversion pathways in two bench-scale horizontal flow anaerobic biodigesters treating swine wastewater (SW). Two reactors (total volume of 10.6L; working volume of 7.95 L) were operated in parallel for 150 days under identical conditions (hydraulic retention time HRT = 25 days; volumetric organic loading rate VOLR = 0.3-0.5 g V L-1 day-1 of TVS): one equipped with mechanical mixing (HFw) and the other operated without mixing (HFw/o). After system stabilization, no statistically significant differences were observed between the reactors with respect to hydrolysis and methanogenesis (%) or biogas production and composition. Mass balance analysis demonstrated that HFw accumulated fewer solids within the reactor (5.5% of the applied chemical oxygen demand COD) compared with HFw/o (13.6%). These findings indicate that mechanical stirring effectively mitigates sludge accumulation without compromising overall treatment performance or biogas generation.
Cruz et al. (Wed,) studied this question.