Performance and modeling studies of rotating biological contactor for treatment of vegetable oil wastewater

Abstract

AbstractThis study focuses on a lab‐scale rotating biological contactor (RBC) treating vegetable oil wastewater with high BOD and COD. The fabricated RBC was checked for efficiency in degrading polluted wastewater under different operating conditions. The maximum removal efficiencies for BOD and COD were 95.75% and 89%, respectively. This high removal percentage was obtained with 30% submergence of 10 discs rotating at 8 rpm. For the first time, bio‐kinetic models were applied to the experimental results for vegetable oil wastewater. The best fit was obtained with the modified Stover‐Kincannon and Grau model. The saturation constant (Ks) values were 1.872 and 3.024 g/L/d for BOD and COD, respectively, for the modified Stover‐Kincannon and Grau model. For the Grau second‐order model, the saturation constant was 1.416 and 3.744 g/L/d for BOD and COD, respectively. The predicted effluent BOD and COD values of the modified Stover–Kincannon model fitted almost exactly with the experimental values. This clearly predicts that this model can be best used to predict effluent BOD and COD concentration in a Rotating Biological contactor treating vegetable oil wastewater. The kinetic parameters determined in this study can be used to improve the design and operation of continuous mode RBC systems.