Alex Avilés-Añazco scite author profile

Due to the outbreak of the novel coronavirus disease there is a need for public water supply of the highest quality. Adequate levels of chlorine allow immediate elimination of harmful bacteria and viruses and provide a protective residual throughout the drinking water distribution network (DWDN). Therefore, a residual chlorine decay model was developed to predict chlorine levels in a real drinking water distribution network. The model allowed determining human exposure to drinking water with a deficit of residual chlorine, considering that it is currently necessary for the population to have clean water to combat coronavirus Covid 19. The chlorine bulk decay rates (kb) and the reaction constant of chlorine with the pipe wall (kw) were experimentally determined. Average kb and kw values of 3.7 d− 1 and 0.066 m d− 1 were obtained, respectively. The values of kb and kw were used in EPANET to simulate the chlorine concentrations in a DWDN. The residual chlorine concentrations simulated by the properly calibrated and validated model were notably close to the actual concentrations measured at different points of the DWDN. The results showed that maintaining a chlorine concentration of 0.87 mg L− 1 in the distribution tank, the residual chlorine values in the nodes complied with the Ecuadorian standard (0.3 mg L− 1); meanwhile, about 45% of the nodes did not comply with what is recommended by the WHO as a mechanism to combat the current pandemic (0.5 mg L− 1). This study demonstrated that residual chlorine modeling is a valuable tool for monitoring water quality in the distribution network, allowing to control residual chlorine levels in this pandemic season.

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Pressure management for leakage reduction using pressure reducing valves. Case study in an Andean city

García-Ávila

Avilés-Añazco

Ordoñez-Jara

et al. 2019

Alexandria Engineering Journal

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Performance of Phragmites Australis and Cyperus Papyrus in the treatment of municipal wastewater by vertical flow subsurface constructed wetlands

García-Ávila

Patiño-Chávez

Zhinín-Chimbo

et al. 2019

International Soil and Water Conservation Research

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The challenge of improving the efficiency of drinking water treatment systems in rural areas facing changes in the raw water quality

García-Ávila

Avilés-Añazco

Sánchez-Cordero

et al. 2021

South African Journal of Chemical Engineering

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Application of ornamental plants in constructed wetlands for wastewater treatment: A scientometric analysis

García-Ávila¹,

Avilés-Añazco²,

Cabello-Torres³

et al. 2023

Case Studies in Chemical and Environmental Engineering

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