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Effect of Pretreatment on Physico-Chemical Parameters of Matrix and Pollutant Removals in Subsurface Wastewater Infiltration System

Effect of Pretreatment on Physico-Chemical Parameters of Matrix and Pollutant Removals in Subsurface Wastewater Infiltration System
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摘要 Two pilot subsurface wastewater infdtrafion systems (SWISs) were filled with the same mixed matrix and operated in the intermittent feeding mode with hydraulic loading of 0. 1 m3/ (m2 d) for 140 d. One of SWISs was fed with wastewater which was previously settled ( ST), and the other with the same wastewater but in addition treated with a coagulation process (CT). After 140 d of operation, in the upper layer of ST system the effective porosity decreased by 4.1% and the organic matter (OM) content increased by 246.4 %, whereas only decreased by 0.7 % and increased by 35. 7% of CT system, respectively. During the study, dogging didn't occur in CT system and occurred in ST system. Effluent chemical oxygen demand (COD), total phosphorus (TP) and ammonia nitrogen (NH4+ --N ) concentrations in CT system were less than those in ST system. In ST system, effluent COD, TP, NH4+ --N concentrations increased and suspended solid (SS) concentration decreased after dogging. The results indicated that the use of a prior coagulation treatment was a good alternative for improving the effluent quality and avoiding an anticipated dogging. Two pilot subsurface wastewater infiltration systems(SWISs) were filled with the same mixed matrix and operated in the intermittent feeding mode with hydraulic loading of 0.1 m^3/(m^2·d) for 140 d.One of SWISs was fed with wastewater which was previously settled(ST),and the other with the same wastewater but in addition treated with a coagulation process(CT).After 140 d of operation,in the upper layer of ST system the effective porosity decreased by 4.1%and the organic matter(OM) content increased by 246.4%,whereas only decreased by 0.7%and increased by 35.7%of CT system,respectively.During the study,clogging didn't occur in CT system and occurred in ST system.Effluent chemical oxygen demand(COD),total phosphorus(TP) and ammonia nitrogen(NH_4^+ —N) concentrations in CT system were less than those in ST system.In ST system,effluent COD,TP,NH_4^+—N concentrations increased and suspended solid(SS) concentration decreased after clogging.The results indicated that the use of a prior coagulation treatment was a good alternative for improving the effluent quality and avoiding an anticipated clogging.
作者 FEI He-xin PAN Jing SONG Si-yu ZHANG Yang ZHENG Fan- ping YU Jing-xiao 费鹤馨;潘晶;宋思雨;张阳;郑翻萍;于婧潇(College of Life Science,Shenyang Normal University)
出处 《Journal of Donghua University(English Edition)》 EI CAS 2016年第6期878-882,共5页 东华大学学报(英文版)
基金 National Natural Science Foundations of China(Nos.41001321,41471394,41571455) Major Original Program in Shenyang Normal University,China(No.ZD201403) Ecology and Environment Research Center Director Foundation of Shenyang Normal University,China(No.EERC-T-201601) Natural Science Foundation of Liaoning Province,China(NO.2015010585-301) Liaoning BaiQianWan Talents Program,China(No.2015(45)
关键词 COAGULATION soil matrix pollutant removal subsurface wastewater infiltration system(SWIS) coagulation soil matrix pollutant removal subsurface wastewater infiltration system ( SWIS )
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