期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 825, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2022.153930
关键词
DMBR; GAC; Filtration performance; DM properties; Microbial consortia
资金
- China Postdoctoral Science Foundation [2021MD703870]
- Japan Society for the Promotion of Science (JSPS) [P19745]
- Shaanxi Provincial Program for Innovative Research Team [2019TD-025]
This study investigated the performance and mechanism of a gravity-driven dynamic membrane bioreactors (DMBR) with GAC addition (G-DMBR) for domestic wastewater treatment. It was found that adding GAC effectively enhanced the permeability and flux of the dynamic membrane, as well as regulated the microbial community structure, leading to stable and efficient wastewater treatment.
A gravity-driven dynamic membrane bioreactors (DMBR) with GAC addition (G-DMBR) was operated under constant pressure filtration mode (using 20 cm water head) for real domestic wastewater treatment. During the stable operation period, the treatment performance, DM filtration behavior and mechanism as well as microbial properties were studied and compared with a control DMBR (C-DMBR). Both DMBRs showed stable removal of chemical oxygen demand (COD) and ammonia (NH4+-N) with average removal rates over 88% and 98%, respectively. GAC addition effectively enhanced dynamic membrane (DM) permeability with a stable flux of 17 to 65 L/m(2)h, which was approximately four times higher than that in the C-DMBR without GAC addition. Filtration resistance analysis indicated theDMformation can be divided to three stages: the formation of the initialDMlayer, the development of matureDMlayer and dynamic equilibrium stage of the DM layer. Filtration model analysis illustrated that added GAC could be the skeleton of the DM, resulting in a more porous and incompressible DM layer. Additionally, microbial community analysis revealed that in the G-DMBR several fouling-causing phyla including Proteobacteria reduced while other phyla preferring attached growth such as Bacteroidetes and Gemmatimonadetes increased. Thus, adding GAC to the DMBR can be an effective strategy for achieving stable and high-flux operation by modifying DMproperties and regulating DMformation process and structure.
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