Dissolved organic nitrogen(DON)has attracted much attention in drinking water treat-ment due to its potential to produce nitrogenous disinfection by-products(N-DBPs).This work was designed to explore the transformation and fate of DON and dissolved inor-ganic nitrogen(DIN)in drinking water treatment.The changes of DON and formation of N-DBPs were evaluated along the water treatment route(i.e.,pre-ozonation and biological-contact oxidation,delivery pipes'transportation,coagulation-sedimentation,sand filtra-tion,post-ozonation,biological activated carbon,ultrafiltration and disinfection)of drinking water treatment plant(DWTP).The transformation mechanism of DON was comprehen-sively investigated by molecular weight fractionation,three-dimensional fluorescence,LC-OCD(Liquid Chromatography-Organic Carbon Detection),total free amino acids.A detailed comparison was made between concentrations and variations of DON and DIN affected by seasons in the drinking water treatment.Regardless of seasonal variation in raw wa-ter concentration,the DON removal trends between different treatment processes remain constant in the present study.Compared to other treatment processes,pre-ozonation and coagulation-sedimentation exhibited the dominant DON removal in different seasons,i.e.,11.13％-14.45％and 14.98％-22.49％,respectively.Contrary,biological-contact oxidation and biological activated carbon negatively impacted the DON removal,in which DON increased by 1.76％-6.49％in biological activated carbon.This may be due to the release of soluble mi-crobial products(SMPs)from bacterial metabolism,which was further validated by the rise of biopolymers in LC-OCD.

Key Laboratory of Integrated Regulation and Resource Development on Shallow Lake of Ministry of Education,College of Environment,Hohai University,Nanjing 210098,China;College of Environment,Hohai University,Nanjing 210098,China

[1]Yuye Luo;Cheng Liu;Congcong Li;Yiwen Shan;Tariq Mehmood-.Transformation mechanism and fate of dissolved organic nitrogen(DON)in a full-scale drinking water treatment)[J].环境科学学报（英文版）,2022(11):122-135

filtra,DWTP

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