modelling internal boundary conditions of a sewer...
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Modelling Internal Boundary Conditions of a Sewer Network Nuno Melo, Jorge Leandro, James Shucksmith, Matteo Rubinato, Slobodan Djordjevic, Adrian J. Saul, Helena Ramos, João L. M. P. de Lima
University of Coimbra
IMAR Institute of Marine Reseach
UDI Reseach Unit for Inland Development
University of Sheffield University of Exeter
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Conclusion
Structure of the Presentation
Introduction
Structure of the Presentation
Introduction
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Conclusion
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Results and Discussion
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Introduction
Flooding in Manila - Philippines
Flooding in UK - 2012 Sewer system flooding
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
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Introduction
The aim of the work is to validate the internal boundary conditions of a scale model of an urban drainage system.
The calibration of the models is done using the experimental data of two storm events.
The facility is a scale model of an urban drainage system.
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
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Physical Model
Methodology
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion Scheme of the facility (M stands for manhole)
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Hydraulic Numerical Models
Methodology
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
SIPSON – “Simulation of Interaction between Pipe flow and Overland flow in Networks”.
SWMM – “Storm Water Management Model”.
Djordjevic (2001)
Rossman (2010)
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Data Analysis
Methodology
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Event of 12th December 2008 Event of 17th January 2009
Inflow hydrographs at each inlet pipe
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
It was found that the flow Froude number is always less than unity irrespectively of the event, indicating that we are in the
presence of subcritical flow.
According to Zhao et al. (2006) subcritical flow in sewer junctions has relatively small energy losses.
In SIPSON the head losses considered in manholes was Special Type 3 (least energy loss considered in SIPSON).
In SWMM, the head losses in manholes are calculated considering losses coefficients on their inlet and outlet pipes.
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Variation of water depth
Manhole 2
Manhole 3
Manhole 1
12th December 2008 17th January 2009
Manhole 2
Manhole 3
Manhole 1
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Manhole 4
Variation of water depth
Manhole 5
Manhole 5
Manhole 4
12th December 2008 17th January 2009
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Variation of water depth
Manhole 6
Manhole 6
12th December 2008 17th January 2009
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
without considering head losses in manholes
Variation of flow rate at manholes - event of 12th December 2008
considering head losses in manholes
SIPSON results - SWMM results
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
Variation of flow rate at manholes - event of 17th January 2009
without considering head losses in manholes
considering head losses in manholes
SIPSON results - SWMM results
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Results and Discussion
Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion Comparison of the variation of water depth for two different simulations
(with junctions or reservoirs to modelling manholes in SWMM).
Manhole 6
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Conclusion
SIPSON calculates the flow depth in manholes taking into consideration the depth increase due to transfer of kinetic
energy to potential energy.
SWMM Flow depth inside manholes is equal to the average between the pipes upstream and downstream values.
In this experimental facility SIPSON reproduced fairly well the water depths in the manholes. Conclusion
Introduction
Structure of the Presentation
Methodology
Physical Model
Hydraulic Numerical Models
Data Analysis
Results and Discussion
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Thank you for your attention Nuno Melo Email contact: [email protected]
University of Coimbra Civil Engineering Department
IMAR Institute of Marine Reseach