Pere Emiliano scite author profile

Drinking Water Treatment Plants face changes in raw water quality and quantity and the treatment needs to be adjusted accordingly to produce the best water quality at the minimum environmental cost. The amount of data generated along drinking water treatment plants allows developing data-based models like artificial neural networks that are able to predict operational parameters and can be incorporated into environmental decision support systems. In the present study, an artificial neural network is developed for predicting the potassium permanganate demand at the inlet of a full-scale Drinking Water Treatment Plant. A systematic methodology is carried out for outlier detection and removal from the original dataset. Afterwards, model parameters estimation, uncertainty and sensitivity analysis is reported to assess prediction quality and uncertainty of the models. Bootstrap method was used for parameter estimation, and uncertainty of the inputs onto the model outputs was propagated using a Monte Carlo scheme. Several sensitivity analysis methods were evaluated to understand the contribution of the inputs on the output of the models, and this was in accordance with the knowledge of the process and other studies found in the literature. The selected architecture consisted of a feed-forward multi-layer perceptron with four inputs and one node in the hidden layer with a sigmoid activation function. The mean absolute error of the resulting model is 0.128 mg•L-1, which was considered acceptable by the DWTP operators. The resulting model provided good results in terms of replicative, predictive and structural performance and is to be used for supporting decisionmaking in the daily operation of the plant.

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Chemical characterization and relative toxicity assessment of disinfection byproduct mixtures in a large drinking water supply network

Postigo

Emiliano

Barceló

et al. 2018

Journal of Hazardous Materials

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In order to reduce the formation of disinfection by-products (DBPs) during potabilization of water it is necessary to explore the potential of the source water and the applied treatment to generate these chemicals. This is actually more challenging in large drinking water networks that use different source waters to satisfy drinking water demand. In this regard, this work investigated the formation of DBPs in water matrices that are commonly supplied to the city of Barcelona and its metropolitan area. The regulated trihalomethanes and haloacetic acids were the most abundant DBP classes in these waters, followed by haloacetamides and haloacetonitriles or trihalogenated acetaldehydes (THALs). On the contrary, the formation potential of iodo-DBPs was minor. Mixing of drinking water treatment plant finished waters with desalinated water decreased the overall DBP formation potential of the water but resulted in the increased formation of brominated DBPs after long chlorine contact time. The formation of most DBPs was enhanced at high water temperatures (except for Br-THALs) and increasing residence times. Potential cytotoxicity and genotoxicity of the DBP mixtures were mainly attributed to the presence of nitrogen-containing DBPs and HAAs.

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Benchmarking empirical models for THMs formation in drinking water systems: An application for decision support in Barcelona, Spain

Godo-Pla

Emiliano²,

Poch

et al. 2021

Science of The Total Environment

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Screening of microplastics in water and sludge lines of a drinking water treatment plant in Catalonia, Spain

Dronjak

Expósito²,

Rovira³

et al. 2022

Water Research

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Assessment of dead-end ultrafiltration for the detection and quantification of microbial indicators and pathogens in the drinking water treatment processes

Pascual-Benito

Emiliano²,

Casas-Mangas

et al. 2020

International Journal of Hygiene and Environmental Health

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Pere Emiliano

Predicting the oxidant demand in full-scale drinking water treatment using an artificial neural network: Uncertainty and sensitivity analysis

Chemical characterization and relative toxicity assessment of disinfection byproduct mixtures in a large drinking water supply network

Benchmarking empirical models for THMs formation in drinking water systems: An application for decision support in Barcelona, Spain

Screening of microplastics in water and sludge lines of a drinking water treatment plant in Catalonia, Spain

Assessment of dead-end ultrafiltration for the detection and quantification of microbial indicators and pathogens in the drinking water treatment processes

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