ABSTRACT

This paper presented a conceptual approach toward alternatives for the design of anaerobic sludge blanket reactors. In essence, it is proposed: i) the elimination of gas-liquid-solid separators that integrate the upflow anaerobic sludge blanket reactors and their replacement by a high rate settlers placed inside or outside the volume of biological reactor; ii) the recirculation of a fraction of the of the sludge retained in the settler, converting the process into a solution that resembles the activated sludge system, however, preserving the sludge blanket (Activated Anaerobic Sludge Blanket System), and thus ensuring better control of the cell retention time; and iii) the simplification (lower inlet points) of the influent distribution system placed over the bottom of the reaction zone, upon the implementation of two alternatives: mechanical mixing or hydraulic agitation with jet discharges, intermittent, in both cases. The proposals, as presented, are a summary of researches based on bench scale tests succeeded by the operation and tests in two parallel pilot units (total volume: 20.8 m³, including reaction zone and settler). It was found that it is possible to remove suspended solids from the effluent of the reaction zone without the need for a three-phase separator, and also, that it is possible to maintain the sludge blanket even with mixing in the reaction zone. Good results regarding total suspended solids, biochemical oxygen demand and chemical oxygen demand removal in the settlers were obtained, with applied hydraulic loading rate from 34.0 to 81.6 m³m^-2 day. It was also found that very low velocity gradient values (G £ 20 s^-1) are required to promote the maintenance of the sludge blanket, and the intermittency in the agitation is favorable to the biological process. The results concerning, , and TSS removal were compared with those of other studies on conventional upflow anaerobic sludge blanket reactors. However, those related to sludge age were the most significant to the conclusions of this research. When the reactor was operated with a hydraulic retention time of 8.2 h and a upflow velocity upflow velocity of 0.69 mh^-1 in the biological reactor, the average sludge age reached 175 days. When applying smaller values of upflow velocity, the sludge age values reached greater values (Example: upflow velocity = 0.39 mh^-1; sludge age = 363 days). The results and conclusions of this research open new perspectives for future research and new horizons for designing systems consisting of anaerobic sludge blanket and high-rate settlers.

Keywords:
UASB reactors; high-rate settlers; GLS separators; sludge blanket; sludge blanket mixing; anaerobic activated sludge