Citas bibligráficas
Cordova, D., (2023). Modelamiento y simulación de cloro residual en agua potable, para determinar la calidad microbiológica del agua del centro poblado Marona [Universidad Nacional de San Martín. Fondo Editorial]. http://hdl.handle.net/11458/5132
Cordova, D., Modelamiento y simulación de cloro residual en agua potable, para determinar la calidad microbiológica del agua del centro poblado Marona []. PE: Universidad Nacional de San Martín. Fondo Editorial; 2023. http://hdl.handle.net/11458/5132
@misc{renati/1054953,
title = "Modelamiento y simulación de cloro residual en agua potable, para determinar la calidad microbiológica del agua del centro poblado Marona",
author = "Cordova Peña, Dagoberto",
publisher = "Universidad Nacional de San Martín. Fondo Editorial",
year = "2023"
}
Modeling and simulation of residual chlorine in drinking water to determine the microbiological quality of the water in the Marona village The Peruvian standard requires a minimum residual chlorine concentration of 0.50 mg/L in drinking water. The present investigation was carried out from October 21, 2021 to June 20, 2022 with the objective of determining the microbiological quality of drinking water in the town of Marona, for which 20 monitoring points were selected in households, according to their location with respect to the main water distribution network. The necessary hydraulic calculations were made for the modeling of the hydraulic network of the Marona village, for the subsequent calibration of the residual chlorine modeling. A chlorine discharge of 1.80 mg/L was obtained, which was later verified in situ to ensure that the free residual chlorine concentrations in the field are considerably close to the residual chlorine concentrations obtained in the simulation in the WaterCAD software. A digital free chlorine meter was used for the in situ determination, and two samples were taken per household, obtaining averages between 0.48 mg/L and 1.14 mg/L, which were found to be close to the concentrations obtained in the residual chlorine simulation applied. The obtained results were optimal, meaning that the microbiological quality of the water in the Marona village is suitable for human consumption.
Este ítem está sujeto a una licencia Creative Commons Licencia Creative Commons