Abstract
This work presents a simple heuristic approach to maximize the hydrogen production rate (HPR) using an on-line optimization strategy in a continuous stirred tank reactor. An initial investigation of the relationship between the organic loading rate (OLR) and HPR was used to propose the objective function of a nonlinear optimization problem, subject to a limited range of hydraulic retention times (HRTs) and a maximum productivity standard deviation. The inlet flow was the optimized variable while the influent substrate concentration was fixed at a constant value. The results showed a maximum HPR of 25.4L H2/(Ld), reached for an optimal OLR of approximately 100g COD/(Ld) and an HRT of approximately 4h. Following the optimization strategy, the specific HPR was increased from 7.52 to 16.35L H2/(gVSSd). The hydrogen yield increased from 1.8 to 2.32mol H2/mol glucose, representing an improvement of 29%. Finally, during the optimization period, the specific hydrogen production rate increased from 3.3 to 16.35L H2/(gVSSd), which suggested that the substrate was used by hydrogen-producing biomass rather than by other competing microorganisms.
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