Operational strategies of system consisting of non-compartmentalized aerated reactor with sectors with aeration/without aeration preceded by an anaerobic reactor

The option of biological systems prevails for the treatment of sewage waste and in recent decades, systems that have anaerobic, anoxic, aerobic regions and / or zones have proven attractive for simultaneous removal of organic matter, nitrogen and phosphorus. However, the operational aspects still deserve to be studied in order to achieve the optimized performance of these systems. In this scenario, in order to compare alternatives for the operation of sewage treatment plants, the present work aimed to study operational strategies associated with monitoring, in real time, without the addition of external carbon source, for a non-compartmentalized aerated reactor with growth suspended and continuous flow preceded by anaerobic reactor. The experimental system in bench scale consisted of an anaerobic reactor, with a volume of 43.54 L and an aerated reactor, with a volume of 68.07 L; consisting of seven sectors, in series, without physical separation. The study was divided into two stages: I - study of the variation of the volume of the aerated and non-aerated regions; II - study of intermittent aeration with cycle of aeration/agitation controlled by a pre-fixed time interval; and controlled in real time by a computerized system. In all Stages of the study high BOD removal and conversion of TKN to nitrate occurred, but were unable to obtain denitrification at desired level. The use of reactors with sequential sectors without physical division (Stage I) made it difficult to obtain predominantly distinct anoxic and aerobic regions, compromising the removal of nitrogen (mainly the denitrification). The highest average removal efficiency of nitrogen attained in aerated reactor was 35.6% when the reactor was operated with intermittent aeration with aeration cycle controlled in real time. The operation strategy with intermittent aeration, studied in Stage II, favored the removal of nitrogen. The intermittent aeration proved to be a promising option compared to continuous aeration in specific sectors of the reactor. The automated and computerized control in real-time of the aeration / agitation cycles can be applied in improving the operation of sewage waste treatment systems. (AU)