Saved in:
Bibliographic Details
Main Authors: Laucelli, Daniele, Vergine, Lucia, Messa, Giuseppina, Giustolisi, Orazio
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.14985
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866911113511174144
author Laucelli, Daniele
Vergine, Lucia
Messa, Giuseppina
Giustolisi, Orazio
author_facet Laucelli, Daniele
Vergine, Lucia
Messa, Giuseppina
Giustolisi, Orazio
contents Disinfection in drinking water networks is performed to ensure water safety and potability. However, disinfectants can react with organic compounds present in the water networks. The reaction of disinfectants with such compounds generates byproducts that could be dangerous for human health. The compounds are generally endogenous, i.e., adhered or/and released by the pipe wall, and not introduced from reservoirs because water utilities efficiently monitor and manage their water quality. The present effort, starting from the relevant scientific literature, proposes a novel framework which is based on analysing the disinfectant consumption using a second order kinetic model. The novel framework allows analysing the two endogenous mechanisms of compounds reactions: the first mechanism refers to compounds detached by the momentum of water flow and reacting into the bulk while transported by flow, the second one refers to local reaction at wall. The use of a chemically based second order kinetic model, furthermore, allows for emphasizing the role of stoichiometry and reaction rate constants of reactants and byproducts as relevant parameters to be evaluated at laboratory scale for the specific water system. Thus, the proposed framework can effectively support water quality management using monitoring data together with hydraulic modelling. Two real water distribution systems, located in southern Italy and managed by Acquedotto Pugliese, were used as case studies: the small-sized network of Monteparano and the large-sized one of Bari.
format Preprint
id arxiv_https___arxiv_org_abs_2508_14985
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A novel framework for disinfection analisys in drinking water networks
Laucelli, Daniele
Vergine, Lucia
Messa, Giuseppina
Giustolisi, Orazio
Chemical Physics
Disinfection in drinking water networks is performed to ensure water safety and potability. However, disinfectants can react with organic compounds present in the water networks. The reaction of disinfectants with such compounds generates byproducts that could be dangerous for human health. The compounds are generally endogenous, i.e., adhered or/and released by the pipe wall, and not introduced from reservoirs because water utilities efficiently monitor and manage their water quality. The present effort, starting from the relevant scientific literature, proposes a novel framework which is based on analysing the disinfectant consumption using a second order kinetic model. The novel framework allows analysing the two endogenous mechanisms of compounds reactions: the first mechanism refers to compounds detached by the momentum of water flow and reacting into the bulk while transported by flow, the second one refers to local reaction at wall. The use of a chemically based second order kinetic model, furthermore, allows for emphasizing the role of stoichiometry and reaction rate constants of reactants and byproducts as relevant parameters to be evaluated at laboratory scale for the specific water system. Thus, the proposed framework can effectively support water quality management using monitoring data together with hydraulic modelling. Two real water distribution systems, located in southern Italy and managed by Acquedotto Pugliese, were used as case studies: the small-sized network of Monteparano and the large-sized one of Bari.
title A novel framework for disinfection analisys in drinking water networks
topic Chemical Physics
url https://arxiv.org/abs/2508.14985