Evaluation of water quality and stability in the drinking water distribution network in the Azogues city, Ecuador

García-Ávila, Fernando; Fernández, Lía Ramos; Pauta, Damián; Quezada, Diego

doi:10.1016/j.dib.2018.03.007

Cited by 30 publications

(17 citation statements)

References 9 publications

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“…This involves the floating of a cork material in the lotic water at a given time and the current velocity was calculated in m/s using the formula:

where

implies current velocity,

is the distance, and

is time parameter. Related researches on water quality and its assessment are not limited to the following [1] , [2] , [3] , [4] , [5] , [6] , [7] , [8] , [9] , [10] , [11] , [12] , [13] , [14] , [15] , [16] , [17] , [18] , [19] .…”

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Dataset on the assessment of water quality and water quality index of Ubogo and Egini rivers, Udu LGA, Delta State Nigeria

et al. 2018

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The article contains datasets built on a baseline study on the selected physicochemical parameters and Water Quality Index of Ubogo and Egini Rivers, Delta State, for a period of six months, spanning the time frame between February - July, 2010. Within this space, six stations were shared equally among the two rivers using the three communities they flow through as guide, and water samples were collected on monthly basis from these stations. The objectives include determination of the spatial variations and background concentrations of the selected physicochemical parameters. Sixteen physicochemical parameters were analyzed in the water. Current velocity, air and water temperature were determined in-situ; the rest physicochemical parameters were determined via adopting standard methods. Apart from turbidity, the values of the rest physical parameters – air and water temperature, TDS showed significant difference (p < 0.05) across the stations.

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“…This involves the floating of a cork material in the lotic water at a given time and the current velocity was calculated in m/s using the formula:

where

implies current velocity,

is the distance, and

Section: Experimental Design Materials and Methodsmentioning

confidence: 99%

Dataset on the assessment of water quality and water quality index of Ubogo and Egini rivers, Udu LGA, Delta State Nigeria

et al. 2018

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“…At chlorine concentrations of 2 mg/L and 5 mg/L, a greater copper release was generated. Chlorine concentrations between 0.3 to 0.7 mg/L are commonly found in the drinking water distribution network [45]; at this range, the copper concentration released is in the range of 180 to 220 µg/L, which is within the dissolved copper limits recommended by WHO (2004) [60].…”

Section: Copper Releasementioning

confidence: 94%

“…The free chlorine concentration was in the treatment plant (filtration 0 mg/L and storage tanks 0.85 mg/L); in the house (corrosion test rack 0.37 mg/L). The water used for all the trials was the same drinking water that is distributed in the Azogues city, whose physicochemical characteristics were presented by [45].…”

Section: Study Area Descriptionmentioning

confidence: 99%

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Effect of Residual Chlorine on Copper Pipes in Drinking Water Systems

García-Ávila¹,

Pino²,

Bonifaz-Barba³

et al. 2019

JESTR

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Copper pipes corrosion that transport potable water can deteriorate water quality within a distribution system, releasing high copper amounts, exceeding the maximum concentration copper for potable water standards. This study examines the influence of free chlorine on the leaching of copper in the pipes used for the distribution of drinking water. A series of tests was carried out using corrosion test coupons extractable constructed of copper material. The coupons were installed in units containing filtered water (without chlorine, 0 mg/L) and water treated with an average residual chlorine concentration of 0.85 mg/L in the water treatment plant in Azogues city, Ecuador. A corrosion test rack was also installed in a house with an average residual chlorine concentration of 0.37 mg/L. Coupons in these sites were exposed in duplicate for one, two, three and six months. The corrosion coupons were then extracted and weighed to establish the corrosion rate by gravimetric technique. Additional tests were performed in static immersion laboratory tests using drinking water with chlorine concentrations ranging from 0.25 to 5 mg/L for one month. The weight loss tests indicated that an increase in free chlorine concentration, the greater release of copper and therefore a higher corrosion rate.

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“…Practical examples of this scenario are water classification scales developed by Luzati and Jaupaj [3], Hamid et al [54], Guettaf et al [60], Vatkar et al [89], Kalyani et al [90], and Shah and Joshi [91]. Zhao et al [20], Abtahi et al [57], García-Ávila et al [63], Al-Janabi et al [92], and Al Obaidy et al [93] attempted to resolve the problem by minimizing the difference between classes to a decimal fraction. Although the problem has been minimized, the fact remains that the categorization schema does not accommodate all the achievable index scores.…”

Section: Water Quality Classificationmentioning

confidence: 99%

Development of Water Quality Indices (WQIs): A Review

Banda¹,

Kumarasamy²

2020

Pol. J. Environ. Stud.

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Water quality indices (WQIs) are necessary for simplifying the reporting of complex and technical water quality information. They are scientifically based communication models that are capable of converting multi-variable water quality data to produce a single unit less digit score that describes overall water quality. This in turn is important for providing a structured platform to evaluate and compare water quality of various water resources [1, 2]. Water quality indices are not aimed at replacing detailed water quality analysis, rather they are tools aimed at providing a quick guide to assist water quality experts, policymakers and the public by communicating water quality data in a more consistent and ongoing manner [2, 3]. Following the studies by Poonam, et al. [2], Lumb et al. [4], Sutadian et al. [5], and Paun et al. [6], it has been noted that most WQIs are designed for a particular region and are source-specific, thus creating a gap and ample scope to develop a universally acceptable WQI. However, it is extremely difficult to develop a water quality model that is globally acceptable, hence

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Evaluation of water quality and stability in the drinking water distribution network in the Azogues city, Ecuador

Cited by 30 publications

References 9 publications

Dataset on the assessment of water quality and water quality index of Ubogo and Egini rivers, Udu LGA, Delta State Nigeria

Dataset on the assessment of water quality and water quality index of Ubogo and Egini rivers, Udu LGA, Delta State Nigeria

Effect of Residual Chlorine on Copper Pipes in Drinking Water Systems

Development of Water Quality Indices (WQIs): A Review

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