Modelling of rainfall induced infiltration into separate sewerage

Modelling of rainfall induced infiltration into separate sewerage

Flowrate changes in separate wastewater sewerage during wet weather are often attributed to inappropriate connections of runoff water. But these inputs are not the only cause of such behaviour and infiltration through leaking defects or cracks can supply large flows into collection pipes. The charac...

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Bibliographic Details
Published in:WATER SCIENCE AND TECHNOLOGY Vol. 32; no. 1; pp. 161 - 168
Main Authors: Belhadj, N., Joannis, C., Raimbault, G.
Format: Journal Article Conference Proceeding
Language:English
Published: London Elsevier Ltd 1995
IWA Publishing
Subjects:
Computer simulation
Defects
Drainage
Flow rates
Hydrology
Induced infiltration
Infiltration
infiltration/inflow
Interactions
mathematical model
Mathematical models
Modelling
Q1
Rain
Rainfall
Rainfall measurement
Runoff
Sensitivity analysis
Separated sewers
Sewage
sewer evaluation study
Sewer systems
Sewerage
Wastewater
Drainage
mathematical model
sewer evaluation study
infiltration/inflow
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Summary:Flowrate changes in separate wastewater sewerage during wet weather are often attributed to inappropriate connections of runoff water. But these inputs are not the only cause of such behaviour and infiltration through leaking defects or cracks can supply large flows into collection pipes. The characterization of these flows is not an easy task since they involve complex processes, depending not only on rainfall events but also on hydrological conditions and seasons. Using 16 months of hourly measurements of rainfall and flowrates. we developed a six parameter conceptual model to simulate rainfall induced infiltration into a small sewer system. Sensitivity analysis applied to the proposed model showed good achievements under various calibration conditions but displayed high parameter interactions which may be a serious drawback for some specific model uses. Model application to another sewer network yielded good agreement between observed and simulated flows. The suitability of this model must be further checked on other sites.
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ISSN:0273-1223
1996-9732
DOI:10.1016/0273-1223(95)00551-W