Suitability of chlorine bulk decay models for planning and management of water distribution systems

Ian Fisher; George Kastl; Arumugam Sathasivan; Veeriah Jegatheesan

doi:10.1080/10643389.2010.495639

Suitability of chlorine bulk decay models for planning and management of water distribution systems

Ian Fisher, George Kastl, Arumugam Sathasivan, Veeriah Jegatheesan

Research output: Contribution to journal › Article › peer-review

54 Citations (Scopus)

Abstract

Effective disinfection planning and management in large, complex water distribution systems requires an accurate network water quality model. This model should be based on reaction kinetics, which describes disinfectant loss from bulk water over time, within experimental error. Models in the literature were reviewed for their ability to meet this requirement in real networks. Essential features were identified as accuracy, simplicity, computational efficiency, and ability to describe consistently the effects of initial chlorine dose, temperature variation, and successive rechlorinations. A reaction scheme of two organic constituents reacting with free chlorine was found to be necessary and sufficient to provide the required features. Recent release of the multispecies extension (MSX) to EPANET and MWH Soft’s H2OMap Water MSX network software enables users to implement this and other multiple-reactant bulk decay models in real system simulations.

Original language	English
Pages (from-to)	1843-1882
Number of pages	40
Journal	Critical Reviews in Environmental Science and Technology
Volume	41
Issue number	20
DOIs	https://doi.org/10.1080/10643389.2010.495639
Publication status	Published - 2011

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10.1080/10643389.2010.495639

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abstract = "Effective disinfection planning and management in large, complex water distribution systems requires an accurate network water quality model. This model should be based on reaction kinetics, which describes disinfectant loss from bulk water over time, within experimental error. Models in the literature were reviewed for their ability to meet this requirement in real networks. Essential features were identified as accuracy, simplicity, computational efficiency, and ability to describe consistently the effects of initial chlorine dose, temperature variation, and successive rechlorinations. A reaction scheme of two organic constituents reacting with free chlorine was found to be necessary and sufficient to provide the required features. Recent release of the multispecies extension (MSX) to EPANET and MWH Soft{\textquoteright}s H2OMap Water MSX network software enables users to implement this and other multiple-reactant bulk decay models in real system simulations.",

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AU - Sathasivan, Arumugam

AU - Jegatheesan, Veeriah

PY - 2011

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N2 - Effective disinfection planning and management in large, complex water distribution systems requires an accurate network water quality model. This model should be based on reaction kinetics, which describes disinfectant loss from bulk water over time, within experimental error. Models in the literature were reviewed for their ability to meet this requirement in real networks. Essential features were identified as accuracy, simplicity, computational efficiency, and ability to describe consistently the effects of initial chlorine dose, temperature variation, and successive rechlorinations. A reaction scheme of two organic constituents reacting with free chlorine was found to be necessary and sufficient to provide the required features. Recent release of the multispecies extension (MSX) to EPANET and MWH Soft’s H2OMap Water MSX network software enables users to implement this and other multiple-reactant bulk decay models in real system simulations.

AB - Effective disinfection planning and management in large, complex water distribution systems requires an accurate network water quality model. This model should be based on reaction kinetics, which describes disinfectant loss from bulk water over time, within experimental error. Models in the literature were reviewed for their ability to meet this requirement in real networks. Essential features were identified as accuracy, simplicity, computational efficiency, and ability to describe consistently the effects of initial chlorine dose, temperature variation, and successive rechlorinations. A reaction scheme of two organic constituents reacting with free chlorine was found to be necessary and sufficient to provide the required features. Recent release of the multispecies extension (MSX) to EPANET and MWH Soft’s H2OMap Water MSX network software enables users to implement this and other multiple-reactant bulk decay models in real system simulations.

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JO - Critical Reviews in Environmental Science and Technology

JF - Critical Reviews in Environmental Science and Technology

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Suitability of chlorine bulk decay models for planning and management of water distribution systems

Abstract

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