Performance evaluation and hydraulic characteristics of an innovative controlled double circle anaerobic reactor for treating traditional Chinese medicine wastewater

Abstract

An innovative controlled double circle (CDC) anaerobic reactor modified from the IC reactor was proposed, and the start-up process and performance of treating the traditional Chinese medicine (TCM) wastewater using both “IC reactor” and “CDC reactor” were compared. Through the controlled internal & external circulation system, sludge granulation was performed by inoculating flocculent sludge and a better performance was obtained in “CDC reactor”. COD removal efficiency, methane production and volatile fatty acids (VFAs) in the stable stage of “CDC reactor” were approximately 95%, 0.33L (g COD)−1 and 90mgL−1 respectively, with an organic loading rate (OLR) of 14.67kg CODm−3d−1. Hydraulic characteristics of the CDC reactor with different upflow velocities were analysed using the residence time distribution (RTD) method. The results showed that a higher upflow velocity could lead to a smaller dead space in the CDC reactor, and thus a higher processing efficiency could be achieved. The tanks-in-series (TIS) model was proved to be more adaptive to simulate the flow characteristics of the CDC reactor than the axial dispersion (AD) model under the present experimental conditions. The hydraulic characteristics demonstrated that the good performance of the CDC reactor was ascribed to the improved reactor configuration.