Controlling trihalomethanes (THMs) formed in water distribution systems (WDS) is an important issue for producing safe drinking water in the last decades. The main objective of this study is to design WDS to minimize THMs formation. Implemented case of Bani Suef water distribution system (BSWDS), Egypt, was modeled and studied for operating scenarios 2020 and 2040 (case study) using WaterCAD software, alternative [1]. Drinking water samples were collected from fifteen points located on BSWDS according to monthly sampling program performed between February and September 2015. Laboratory analysis showed that the total growth rate coefficient was 1.157 day−1, used in THMs prediction by WaterCAD. Three design alternatives [2, 3, 4] were prepared to reduce the formed THMs based on WaterCAD results. Alternative [2] represented new design of alternative [1] through using decreased pipes diameters to study the effect of reducing travel time on minimizing THMs. Alternative [3] was prepared by redesigning alternative [1] using extending new pipelines from dead ends. Alternative [4] was prepared by redesigning alternative [1] through replacing asbestos cement pipes with new UPVC ones. Predicted THMs from alternatives [2, 3, 4] are lower about 27.85, 21.82 and 11.4% than alternative [1], respectively, for 2020. While, for 2040, are lower about 26.41, 20.2 and 11.4%, respectively.
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