Journal of Engineering Research and Reports

Aim: The study aimed at designing a wastewater treatment method for removal of (Biological Oxygen Demand) BOD₅ using Sequencing batch reactor (SBR).

Study Design: SBR functions as a fill-and-draw type of activated sludge system involving a single complete-mix reactor where all steps of an activated sludge process take place.

Methodology: The intermittent nature of slaughterhouse wastewaters favours batch treatment methods like sequence batch reactor (SBR). Attempts to remediate the impact of this BOD₅ on the stream, led to the design of a sequence batch reactor which was designed to treat slaughterhouse effluent of 1000 L.

Results: The oxygen requirement for effective removal of BOD₅ to 95% was determined to be 21.10513 kgO₂/d, while L:B  of 3:1 was considered for the reactor. Also, air mixing pressure for the design was 0.16835 bar, while settling velocity was .

Conclusion: To ensure proper treatment of BOD₅ load of the slaughterhouse, a sequencing Batch reactor of 1000 litre carrying capacity was designed. For effective operation of this design, the pressure exerted by the mixing air was 0.16835 bar which was far greater than the pressure exerted by the reactor content and the nozzle. Settling velocity of 0.0003445 m/s for 0.887 hrs was required for the reactor to be stable and a theoretical air requirement of 1.6884 m³/d was calculated. Hence the power dissipated by the rising air bubbles to ensure efficient mixing of oxygen in the reactor was calculated as 26530003.91 Kilowatts. With these design parameters, the high BOD₅ load downstream of the river can be treated to fall below the FMEnv recommended limit of 50 mg/l.