Page 1
Experimental and numerical investigation of deposition in sewer detention tanks
Matthieu [email protected]
Urban hydraulics,Fluid and solid mechanics institute of Strasbourg (IMFS),
National school for water and environmental engineering of Strasbourg (ENGEES), France
Page 2
Summary
1. Presentation of ‘Urban hydraulics’2. Introduction of this study3. Experimentation4. Numerical modelling5. Conclusion and outlook
Page 3
Pluviometry
Receiving watercourse
Sewer system
Wastewater treatment plant
Grates
Venturi flume
Catchment area
Urban hydraulics
Page 4
Urban hydraulics
Numerical modelling Experimentation
Hydraulics
Sediment transport
Hydraulic works:Grates, pipes, CSO chambers, detention tanks, Venturi flumes…
InstrumentationDiagnosisDesign
RESE
ARC
HEN
GIN
EERI
NG
(…)
Page 5
Summary
1. Presentation of ‘Urban hydraulics’2. Introduction of this study3. Physical modelling4. Numerical modelling5. Conclusion and outlook
Page 9
Introduction
• Objective of the whole study: operational tool for the design and the rehabilitation of sewer detention tanks
– numerical model– technical guidelines
• Need for experimental data about trap efficiency and spatial distribution of deposits
Page 10
Introduction
Complex geometriesCircular tanksRectangular tanks
Physical models:Stovin (1997) - Univ. Sheffield
Dufresne (2008) - INSA StrasbourgKantoush (2008) - EPFL
Dufresne, Dewals et al. (2009) - ULgCamnasio (2010) - Milano, EPFL
Physical model:In project (2011)
Real-life applications
Page 11
Introduction
Complex geometriesCircular tanksRectangular tanks
Physical models:Stovin (1997) - Univ. Sheffield
Dufresne (2008) - INSA StrasbourgKantoush (2008) - EPFLDufresne (2009) - ULg
Camnasio (2010) - Milano, EPFL
Physical model:In project (2011)
Real-life applications
Data for developing and/or optimizing numerical models
Data for testing numerical models
Page 12
Summary
1. Presentation of ‘Urban hydraulics’2. Introduction of this study3. Experimentation4. Numerical modelling5. Conclusion and outlook
Page 15
2.4 mm
1,020 kg/m3
25 mm/sFr = 0.2
h/ΔB = 0.6
Spatial distribution of deposits
Page 17
Summary
1. Presentation of ‘Urban hydraulics’2. Introduction of this study3. Experimentation4. Numerical modelling5. Conclusion and outlook
Page 18
• Software: Ansys Fluent (3D)
• Flow models:– Isotropic turbulence model: k-ε
– Wall treatment: standard wall functions
– Free surface: symmetry plane
• Particle transport:– Lagrangian particle tracking
– Specific treatment for deposition on the bed: bed shear stress, bed turbulent kinetic energy
Numerical modelling
Page 19
If value < thresholdThen deposition
Bed of the tank
Trajectory of the particle
If value > thresholdThen resuspension
Lagrangian particle tracking
Page 20
2 L/s
Numerical modelling
Page 21
1 L/s
Numerical modelling
Page 22
ColumnsObstacle
Asym. flow Sym. flow
Numerical modelling
Trap
eff
icie
ncy
Inflow velocity (m/s)
Page 23
Summary
1. Presentation of ‘Urban hydraulics’2. Introduction of this study3. Experimentation4. Numerical modelling5. Conclusion and outlook
Page 24
Conclusion and outlook
• Conclusion:– Experimentation => Large dataset of experimental results
– Numerical modelling => New bed boundary condition
– Good reproduction of the spatial distribution of deposits
– Overestimation of the trap efficiency in most cases
• Outlook:– Taking into account the anisotropy of turbulence near the bed
– Threshold values
– Circular tanks
– Real-life applications
Page 25
Experimental and numerical investigation of deposition in sewer detention tanks
Matthieu [email protected]
Urban hydraulics,Fluid and solid mechanics institute of Strasbourg (IMFS),
National school for water and environmental engineering of Strasbourg (ENGEES), France