Abstract
The anaerobic membrane bioreactors (AnMBR) were operated at 35 °C (H-AnMBR) and 25 °C (L-AnMBR) for long-term wastewater treatment. Two aerobic forward osmosis membrane bioreactors (FOMBRs) were utilized to treat the effluents of H-AnMBR and L-AnMBR, respectively. During the 180 days of operation, it is worth noting that the combined system was feasible, and the pollutant removal efficiency was higher. Though the permeate chemical oxygen demand (COD) of H-AnMBR (18.94 mg/L) was obviously lower than that of L-AnMBR (51.09 mg/L), the permeate CODs of the FOMBRs were almost the same with the average concentrations of 7.57 and 7.58 mg/L for the H-FOMBR and L-FOMBR, respectively. It was interesting that for both the AnMBRs, the permeate total nitrogen (TN) concentration was higher than that in bulk phase. However, the TN concentrations in the effluent remained stable with the values of 20.12 and 15.22 mg/L in the H-FOMBR and L-FOMBR effluents, respectively. For the two systems, the characteristics of activated sludge flocs were different for H-AnMBR-FOMBR sludge and L-AnMBR-FOMBR sludge. The viscosity of L-AnMBR-activated sludge (2.09 Pa·s) was higher compared to that of H-AnMBR (1.31 Pa·s), while the viscosity of activated sludge in L-FOMBR (1.44 Pa·s) was a little lower than that in H-FOMBR (1.48 Pa·s). The capillary water absorption time of L-AnMBR-activated sludge (69.6 s) was higher compared to that of H-AnMBR (49.5 s), while the capillary water absorption time of activated sludge in L-FOMBR (14.6 s) was little lower than that in H-FOMBR (15.6 s). The particle size of H-AnMBR-activated sludge (119.62 nm) was larger than that of L-AnMBR-activated sludge (84.92 nm), but the particle size of H-FOMBR-activated sludge (143.81 nm) was significantly smaller than that of L-FOMBR-activated sludge (293.38 nm). The observations of flocs indicated that the flocs of activated sludge in H-AnMBR were relatively loose, while the flocs of L-AnMBR were relatively tight. The fine sludge floc was less present in the L-FOMBR than in the H-FOMBR. Therefore, in the process of sewage treatment, the influent of each unit in the AnMBR-FOMBR system should have suitable organic content to maintain the particle sizes of sludge flocs.
Highlights
In recent years, anaerobic membrane bioreactors (AnMBRs) have attracted much attention due to their advantages for wastewater treatment [1]
It had been reported that the combination of membrane separation technology and an anaerobic bioreactor may allow for municipal wastewater treatment with the benefits of lower sludge production and net energy production, without the extra costs for aeration [2]
According to the objective of this project, the parameters that needed to be optimized in this study were as follows: membrane module configuration, mixing speed, suction and pause time and hydraulic retention time (HRT)
Summary
Anaerobic membrane bioreactors (AnMBRs) have attracted much attention due to their advantages for wastewater treatment [1]. It had been reported that the combination of membrane separation technology and an anaerobic bioreactor may allow for municipal wastewater treatment with the benefits of lower sludge production and net energy production, without the extra costs for aeration [2]. The activities of microorganisms in a biological process decrease when the temperature decreases, which results in decreases in the chemical oxygen demand (COD) removal efficiencies. Besides its effect on the metabolic activities of the microbial population, temperature has a profound effect on factors such as biogas solubility, the solubility of (in)organic compounds and the settling characteristics of the biological solids [4]. A key problem is the need to treat municipal wastewater without heating, and the implementation of AnMBRs in municipal wastewater treatment at ambient temperature is technically feasible, which is defined as temperatures of 5–30 ◦ C [3]
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