Improving the simultaneous removal efficiency of COD and color in a combined HABMR-CFASR system based MPDW. Part 1: optimization of operational parameters for HABMR by using response surface methodology |
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Authors: | Chen Zhao-Bo Cui Min-Hua Ren Nan-Qi Chen Zhi-Qiang Wang Hong-Cheng Nie Shu-Kai |
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Institution: | School of Materials Science & Chemical Engineering, Harbin Engineering University, 145 Nantong Street, Harbin 150001, China. |
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Abstract: | The aim of this study was to implement central-composite design (CCD) and response surface methodology (RSM) to optimize the operational parameters for hybrid anaerobic baffled microbial reactor (HABMR) remedying mixed printing and dyeing wastewater (MPDW). The individual and interactive effects of three variables, hydraulic retention time (HRT), pH, sludge loading rate (SLR) on the COD and color removal rates were evaluated. In the area of HRT: 12.5-13.9 h, pH: 9.0-9.5 and SLR: 0.27-0.33 kg COD/(kg MLVSSd), COD and color removal rates of HABMR exceeded 40% and 60%, simultaneously. The check experiment revealed that the amount of COD and color in the effluent could be decreased by 9.97% and 10.12% compared to the usual operating conditions, respectively. The results verified that the RSM was useful for optimizing the operational parameters of HABMR in treating MPDW. |
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Keywords: | Mixed printing and dyeing wastewater (MPDW) Hybrid anaerobic baffled microbial reactor (HABMR) Response surface methodology (RSM) Optimizing operational parameters |
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