Treatment of partially soluble wastewater in an anaerobic sequencing batch reactor with immobilized biomass and mechanical stirring: analysis of the influence of agitation rate and bioparticle size

The bench-scale anaerobic sequencing batch reactor containing immobilized biomass and provided with mechanical stirring employed in this work had total and useful volumes of 5.5 and 4.5 L, respectively. The biomass was immobilized on cubic polyurethane foam matrices, and the agitation of the liquid medium was provided by four types of impellers (propeller, flat-blade, pitched-blade and curved-blade turbines, individually tested, always in a set of three), with 6 cm of diameter. The research was divided into 4 experimental steps. The first one aimed at determining the mixing time in the reactor for each sort of impeller, i.e., the time necessary for the system to be completely homogeneized. As for the second step, its objective was to choose the sort of impeller and the agitation rate suitable for minimizing the external mass-transfer resistance. The agitation rates tests ranged from 200 to 1100 rpm, depending on the impeller type. The step 3 was carried out utilizing the chosen impeller and agitation rate, but varying the bioparticle size (0.5, 1.0, 2.0 and 3.0 cm of side). The aim of these experiments was to determine the bioparticle size that minimized the solid-phase mass transfer. Using these optimized operational conditions (type of impeller and bioparticle size), the step 4 consisted of the utilization of them in the treatment of a real wastewater (diluted swine manure). As for the results, step 1 showed the mixing times were very low compared to the total cycle times employed in the experiments (8 and 24 h). Very short start-up periods were revealed by the second experimental part (about 20 days in average) for all conditions tested, and the removal efficiencies reached approximately 70%. Besides that, the impeller type exerted great influence on the final quality of the effluent, fact clearly observed when the COD fractions were analyzed separately (filtered and suspended). According to the data obtained in the step 3, the bioparticle size influenced decisively on the performance of the system, in the conditions tested. The bed packing apparently influenced the dissolution rates, whereas the consumption of the COD correspondent to the filtered samples was defined by more complex factors. Finally, the test with the diluted swine manure demonstrated that the operation of this reactor with this type of wastewater is feasible, as the operational data showed the reactor remained stable during all the period tested. The mechanical stirring proved to be efficient to improve the degradation of the suspended COD, one of the major problems in the treatment of this type of wastewater. In this sense, according to the experimental data obtained in this work, it can be affirmed the mechanical stirring in anaerobic sequencing batch reactors showed to be not only important to provide good mixing conditions and improve the liquid phase mass transfer, but also to improve the solubilization of the particulate organic matter and increase the overall organic matter consumption rates. (AU)