Comparison of Techniques for Maintaining Adequate Disinfectant Residuals in a Full-Scale Water Distribution Network

Avvedimento, Stefania; Todeschini, Sara; Manenti, Sauro; Creaco, Enrico

doi:10.3390/w14071029

Cited by 8 publications

(2 citation statements)

References 36 publications

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“…To prevent excessive chlorine dissipation, DWDSs are designed and operated to prevent excessive water ages, , sometimes using purging or blowoffs at fire hydrants in the DWDSs. − Hydraulic modeling software, such as EPANET, is widely used to model water age and chlorine residuals in distribution systems. − …”

Section: Introductionmentioning

confidence: 99%

Assessing the Impact of Stochastic Demands and Fixture Purging on Free Chlorine Residuals in Premise Plumbing Systems

Clements,

Bibby,

Nerenberg

2024

ACS EST Water

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In this study, we used modeling with stochastic demands to assess free chlorine concentrations in premise plumbing systems. Different occupancy scenarios and the use of automated purging devices at the fixtures were assessed. Chlorine concentrations were highly variable, so three novel metrics were proposed to assess the temporal distribution of chlorine residuals: the initial chlorine concentrations at fixtures for each use, the percentage of time a fixture was exposed to low chlorine concentrations (below 0.1 mg/ L), and the durations of the low chlorine events. Showers, particularly those with lower occupancy, often had near-zero chlorine residuals. The chlorine residuals were below a 0.1 mg/L threshold 75% of the time for the one-person household but only 55% in a twoperson household. 12-h scheduled purging reduced the percentage of time with low chlorine to 29% for the one-person household. Lower chlorine residuals in the water supply, smaller pipes, and longer service pipes resulted in substantially lower median chlorine concentrations at the fixtures. The choice of decay coefficients also had a large impact on the percentage of time with low chlorine. Overall, this research provides a new methodology to quantify and assess the highly variable chlorine concentrations in premise plumbing systems and the impacts of purging devices.

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Section: Introductionmentioning

confidence: 99%

Assessing the Impact of Stochastic Demands and Fixture Purging on Free Chlorine Residuals in Premise Plumbing Systems

Clements,

Bibby,

Nerenberg

2024

ACS EST Water

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“…The first type prevails in South-Asian countries mainly for energy saving [12], while the latter is common to reduce water losses in the Gulf region for conserving diminishing natural resources [6]. Water quality problems in IWS are frequently reported in the literature, such as increasing levels of turbidity, heterotrophic plate count bacteria, and coliform bacteria due to water stagnation, contaminants' infiltration, and lack of residual chlorine due to long in-house storage [13,14]. Authors in a previous study evaluated the root causes of water quality failures from source to tap for the IWS systems in Qassim, KSA.…”

Section: Introductionmentioning

confidence: 99%

Risk-Based Inspection and Rehabilitation Planning of Service Connections in Intermittent Water Supply Systems for Leakage Management in Arid Regions

Haider

Almutlaq

Alodah

et al. 2022

Water

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Most of the leakage in water distribution systems operating with plastic pipes occurs at service connections (SCs), while the existing tools plan rehabilitation of pipes. With limited water resources, intermittent supplies in arid regions further enhance the failure vulnerability of metal fittings on water mains due to scale formation and large pressure transients. The present research developed a risk-based methodology for the proactive maintenance of SCs in intermittent water supply systems. A five-generation bottom-up hierarchical approach aggregated the basic hydraulic, physical, and water quality factors to determine the vulnerability of structural failures of SCs. Hydraulic parameters (pressure and velocity) were estimated by simulating a distribution network of 366 water mains of diameters ranging from 110 mm to 225 mm serving 371 SCs in a residential neighborhood located in the Qassim region of Saudi Arabia. Age, depth, and length of SCs’ estimated the condition index, while soil corrosivity and condition of the water mains were also counted when assessing the structural failure index for each SC. Water quality parameters, e.g., pH, turbidity, and iron, that can contribute to the vulnerability of an SC’s failure were also included. Fuzzy-based methods first assessed the relative importance weights of the basic input parameters at the bottom of the hierarchy and the risk factors in the middle of the hierarchy. Subsequently, the performance and condition scores were aggregated to develop respective indices. As the consequence of structural failure is high for the SCs serving households with a large number of residents, the final risk index aggregates the vulnerability and consequence at the hierarchy’s top. The developed model was effectively validated by comparing the SCs of high priority with the leaking and repaired SCs in the past. The method will be a useful tool for planning proactive inspection and rehabilitation of SCs of intermittent supply systems to minimize water losses (less than 8% of the national benchmark) in Saudi Arabia and elsewhere.

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Optimizing sampling location for water quality degradation monitoring in distribution systems: Assessing global representativeness and potential health risk

Ardila,

Rodriguez,

Pelletier

2024

Journal of Environmental Management

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Comparison of Techniques for Maintaining Adequate Disinfectant Residuals in a Full-Scale Water Distribution Network

Cited by 8 publications

References 36 publications

Assessing the Impact of Stochastic Demands and Fixture Purging on Free Chlorine Residuals in Premise Plumbing Systems

Assessing the Impact of Stochastic Demands and Fixture Purging on Free Chlorine Residuals in Premise Plumbing Systems

Risk-Based Inspection and Rehabilitation Planning of Service Connections in Intermittent Water Supply Systems for Leakage Management in Arid Regions

Optimizing sampling location for water quality degradation monitoring in distribution systems: Assessing global representativeness and potential health risk

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