Abstract
In this work, a loofah sponge was used as the solid carbon source and the carrier in a biofilm reactor. Simultaneous nitrification and denitrification (SND) technology was used to achieve nitrogen removal in low-carbon municipal wastewater in a sequencing batch biofilm reactor (SBBR). At room temperature, the effects of filling ratio, dissolved oxygen (DO), pH, C/N(CODCr/TN), and aeration time on the removal of nitrogen were systematically studied. In addition, the removal efficiency of total nitrogen (TN) was used as the evaluation index in response surface models (RSM) for optimization of nitrogen removal. The results showed that DO, pH, and aeration time affected nitrogen removal significantly. Therefore, DO, pH, and aeration time were used as the independent variables in RSM. The optimum conditions for nitrogen removal were found to be as follows in RSM: DO = 4.09 mg/L, pH = 7.58, aeration time = 10.47 h. Under the optimum conditions, the maximum TN removal efficiency reached 86.27%. The results also demonstrated that the deviation between the experimental and predicted TN removal efficiency was only 0.58%, the predicted model was reliable for future application.
Highlights
In Southern China, the municipal wastewater is low in carbon, which limits nitrogen removal efficiency during biotreatment due to a lack of carbon source
The results showed that the total nitrogen (TN) removal efficiency in startup of the reactor was 70%
The results showed that the aeration time had the greatest influence on the removal efficiency of TN, followed by dissolved oxygen (DO) and pH
Summary
In Southern China, the municipal wastewater is low in carbon, which limits nitrogen removal efficiency during biotreatment due to a lack of carbon source. The purpose is to investigate the relationship loofah sponge was a good solid carbon source in the SND process and could be used as a biofilm betweenThe various variables value,efficiency and to optimize the response carrier. Analysis, to the best of our knowledge, the optimization the has been widely used in modeling, and optimization of scientific fields [24,25].of It has efficiency of nitrogen removal in SND involving solid carbon source has not been reported in been successfully applied to optimize the solutions of a variety of biological processes in the designthe of literature. The of RSM method is scarce in the field of water treatment, is mainly nitrogen removal in low-carbon municipal wastewater. Present study, an SBBR containing a loofah sponge was used to enhance the efficiency of nitrogen removal in low-carbon municipal wastewater.
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