Sediment transport prediction in sewer pipes during flushing operation

Carlos Montes; Hachly Ortiz; Sergio Vanegas; Zoran Kapelan; Luigi Berardi; Juan Saldarriaga

doi:10.1080/1573062X.2021.1948077

Sediment transport prediction in sewer pipes during flushing operation

Carlos Montes^*, Hachly Ortiz, Sergio Vanegas, Zoran Kapelan, Luigi Berardi, Juan Saldarriaga

^*Corresponding author for this work

Sanitary Engineering

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

4 Citations (Scopus)

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Abstract

This paper presents a novel model for predicting the sediment transport rate during flushing operation in sewers. The model was developed using the Evolutionary Polynomial Regression Multi-Objective Genetic Algorithm (EPR-MOGA) methodology applied to new experimental data collected. Using the new model, a series of design charts were developed to predict the sediment transport rate and the required flushing operation time for several pipe diameters. Accurate results (i.e. sediment transport rates) were obtained when applied to a case study in a combined sewer pipe in Marseille, as reported in the literature. The novelty of the model is the inclusion of the pipe slope, the inflow ‘dam break’ hydrograph, and the sediment properties as explanatory parameters. The new model can be used to predict flushing efficiency and design new flushing cleaning schedules in sewer systems.

Original language	English
Pages (from-to)	1-14
Number of pages	14
Journal	Urban Water Journal
Volume	19
Issue number	1
DOIs	https://doi.org/10.1080/1573062X.2021.1948077
Publication status	Published - 2021

Bibliographical note

Postprint requested

Keywords

Flushing efficiency
sediment transport
sewer cleansing
sewer flushing

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10.1080/1573062X.2021.1948077

Montes e tal 2021 Sewer Flushing PUREAccepted author manuscript, 15.9 MB

Cite this

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title = "Sediment transport prediction in sewer pipes during flushing operation",

abstract = "This paper presents a novel model for predicting the sediment transport rate during flushing operation in sewers. The model was developed using the Evolutionary Polynomial Regression Multi-Objective Genetic Algorithm (EPR-MOGA) methodology applied to new experimental data collected. Using the new model, a series of design charts were developed to predict the sediment transport rate and the required flushing operation time for several pipe diameters. Accurate results (i.e. sediment transport rates) were obtained when applied to a case study in a combined sewer pipe in Marseille, as reported in the literature. The novelty of the model is the inclusion of the pipe slope, the inflow {\textquoteleft}dam break{\textquoteright} hydrograph, and the sediment properties as explanatory parameters. The new model can be used to predict flushing efficiency and design new flushing cleaning schedules in sewer systems.",

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AU - Montes, Carlos

AU - Ortiz, Hachly

AU - Vanegas, Sergio

AU - Kapelan, Zoran

AU - Berardi, Luigi

AU - Saldarriaga, Juan

N1 - Postprint requested

PY - 2021

Y1 - 2021

N2 - This paper presents a novel model for predicting the sediment transport rate during flushing operation in sewers. The model was developed using the Evolutionary Polynomial Regression Multi-Objective Genetic Algorithm (EPR-MOGA) methodology applied to new experimental data collected. Using the new model, a series of design charts were developed to predict the sediment transport rate and the required flushing operation time for several pipe diameters. Accurate results (i.e. sediment transport rates) were obtained when applied to a case study in a combined sewer pipe in Marseille, as reported in the literature. The novelty of the model is the inclusion of the pipe slope, the inflow ‘dam break’ hydrograph, and the sediment properties as explanatory parameters. The new model can be used to predict flushing efficiency and design new flushing cleaning schedules in sewer systems.

AB - This paper presents a novel model for predicting the sediment transport rate during flushing operation in sewers. The model was developed using the Evolutionary Polynomial Regression Multi-Objective Genetic Algorithm (EPR-MOGA) methodology applied to new experimental data collected. Using the new model, a series of design charts were developed to predict the sediment transport rate and the required flushing operation time for several pipe diameters. Accurate results (i.e. sediment transport rates) were obtained when applied to a case study in a combined sewer pipe in Marseille, as reported in the literature. The novelty of the model is the inclusion of the pipe slope, the inflow ‘dam break’ hydrograph, and the sediment properties as explanatory parameters. The new model can be used to predict flushing efficiency and design new flushing cleaning schedules in sewer systems.

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Sediment transport prediction in sewer pipes during flushing operation

Abstract

Bibliographical note

Keywords

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