Vu Kiem Thuy , Kai He , Shinya Echigo , Yasuhiro Asada , Sadahiko Itoh
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引用次数: 2
Abstract
Globally, sustainable water management is required to minimize water security, and soil aquifer treatments (SATs) are widely applied in wastewater reclamation. Clogging problems limit the sustainable operation of SATs (i.e., the decrease of infiltration rate), and Physical clogging has been widely studied. However, the effect of biological clogging on the operation of SATs is still unclear. Thus, this study focuses on the effects of biological clogging in an SAT system and demonstrates that the clogging process in an SAT column. In this study, the infiltration rate in the A2O + NaN3 water column decreased slightly, to 6–7 cm/h with an average rate of 0.01 cm/h per month after 240 d, compared with an average rate of 0.3 cm/h per month in the columns fed by filtered A2O water. The fastest reduction in infiltration rate, caused by biological clogging, occurred in the first 60 d and corresponded to the highest reduction in hydraulic conductivity of 0–2.5 cm layer. For alleviating clogging, this study illustrated that removing suspended solids from A2O water by filtration helped reduce approximately 25% of polysaccharides and heterotrophic bacteria. In comparison, pre-ozonation of A2O water helped to reduce approximately 70% of the biomass in the surface layer of the A2O + O3 column. Thus, ozonation of wastewater effluent helps control biological clogging in SAT.
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