Importance of demand modelling in network water quality models: a review
TLDR
In this article, a stochastic demands-based network water quality model is proposed for assessing water quality in the drinking water distribution system, which is probabilistic in nature.Abstract:
Today, there is a growing interest in network water quality modelling. The water quality issues of interest relate to both dissolved and particulate substances. For dissolved substances the main interest is in residual chlorine and (microbiological) contaminant propagation; for particulate substances it is in sediment leading to discolouration. There is a strong influence of flows and velocities on transport, mixing, production and decay of these substances in the network. This imposes a different approach to demand modelling which is reviewed in this article. For the large diameter lines that comprise the transport portion of a typical municipal pipe system, a skeletonised network model with a top-down approach of demand pattern allocation, a hydraulic time step of 1 h, and a pure advection-reaction water quality model will usually suffice. For the smaller diameter lines that comprise the distribution portion of a municipal pipe system, an all-pipes network model with a bottom-up approach of demand pattern allocation, a hydraulic time step of 1 min or less, and a water quality model that considers dispersion and transients may be needed. Demand models that provide stochastic residential demands per individual home and on a one-second time scale are available. A stochastic demands based network water quality model needs to be developed and validated with field measurements. Such a model will be probabilistic in nature and will offer a new perspective for assessing water quality in the drinking water distribution system.read more
Citations
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Journal ArticleDOI
Simulating Residential Water Demand with a Stochastic End-Use Model
TL;DR: In this article, a water demand end-use model was developed to predict water demand patterns with a small time scale (1 s) and small spatial scale (residence level).
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Assessing the public health risk of microbial intrusion events in distribution systems: Conceptual model, available data, and challenges
TL;DR: This review provides a characterization of the causes, magnitudes, durations and frequencies of low/negative pressure events; pathways for pathogen entry; pathogen occurrence in external sources of contamination; volumes of water that may enter through the different pathways; fate and transport of pathogens from the pathways of entry to customer taps; paths to populations consuming the drinking water; and risk associated with pathogen exposure.
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The Dutch secret: how to provide safe drinking water without chlorine in the Netherlands
TL;DR: The Dutch approach that allows production and distribution of drinking water without the use of chlorine while not compromising microbial safety at the tap is summarized as follows: 1. Use the best source available, in order of preference: microbiologically safe groundwater, surface water with soil passage such as artificial recharge or bank filtration, direct treatment of surface water in a multiple barrier treatment; 2. Prevent ingress of contamination during distribution, and monitor for timely detection of any failure of the system to prevent significant health consequences as mentioned in this paper.
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Modeling of Chlorine Decay in Drinking Water Supply Systems Using EPANET MSX
Laura Monteiro,Laura Monteiro,David Figueiredo,David Figueiredo,S. Dias,R. Freitas,Dídia Covas,José Menaia,Sérgio T. Coelho +8 more
TL;DR: In this article, the performance of the 2R model as well as of first and n th order decay kinetics was assessed for full scale modelling of chlorine in a transmission system.
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Smart meters data for modeling and forecasting water demand at the user-level
TL;DR: This research explores the use of machine learning methods, including Random Forests, Artificial Neural Networks, and Support Vector Regression to forecast hourly water demand at 90 accounts using smart-metered data to demonstrate that RF and ANN perform better than SVR across all scenarios.
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