gaseous and particulate dispersion in street canyons
DESCRIPTION
Gaseous And Particulate Dispersion In Street Canyons. Kambiz Nazridoust Department of Mechanical and Aeronautical Engineering Clarkson University, Potsdam, NY 13699-5725. Objectives. - PowerPoint PPT PresentationTRANSCRIPT
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Gaseous And Particulate Gaseous And Particulate Dispersion In Street Dispersion In Street
CanyonsCanyons
Kambiz NazridoustKambiz NazridoustDepartment of Mechanical and Aeronautical Engineering
Clarkson University, Potsdam, NY 13699-5725
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1. Develop A Numerical Model in FLUENT™ Code Coupled with Different Turbulence Models to Simulate the Fluid Flow, Pollutant Dispersion and Particle Deposition inside the Street Canyons
2. Examine the Accuracy of Major Turbulence Models with Experimental Data for Street Canyon Modeling
3. Examine Gaseous Air Pollution from Vehicular Exhaust and Industries inside the Street Canyons
4. Examine Particulate Transport and Deposition in Street Canyons for Different Particle Sizees and Flow Conditions
Objectives
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Model Schematic
b (m) h (m) w (m) L (m) H (m)
2D, Exact (Wind Tunnel Model)
0.06 0.06 0.9 0.98 0.4
2D, Symmetric 20 20 1 980 200
2D, Asymmetric 20 10, 15, 20 1 980 200
2D,Variable Street Width20, 40, 60 10, 15, 20 1 980 200
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Computational Grid
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Boundary ConditionsPlane of Symmetry
Outflow1/7th power inlet velocity
Vehicular Emission Line SourceQ=4 lit/h
All walls: -No slip velocity boundary condition-Zero Diffusive Flux-Stick upon impact
Le
ew
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Win
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Governing Equations
Continuity:
Momentum:
Reynolds Stress Transport Model:
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CO2 Concentration –Asymmetric Canyon Configuration
Flow Field Results
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Stream Functions(m2/s2) inside the Canyons for Different Wind Velocities
Flow Field Results
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Velocity Vector Field inside the Canyons for Different Wind Velocities
Flow Field Results
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CO2 Concentration inside the Canyons for Different Wind Velocities
Flow Field Results
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Turbulence Intensity(%) inside the Canyons for Different Wind Velocities
Flow Field Results
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Wind Tunnel Experiment
Computational Grid of the Exact Dimensions of the Wind Tunnel Experiment
Measurement Points of Wind Tunnel Experiment by Meroney et al. (1996)
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(a) Leeward (b) Windward
Comparison with Wind Tunnel Experiment
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(a) 1st Roof (b) 2nd Roof
Comparison with Wind Tunnel Experiment
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Particulate Emissions
Particulate Injector:-1000 Spherical Carbon Particles -0.013 m/s (for 4 lit/h volumetric flux)-3nm to 10micron
All walls: -No slip velocity boundary condition-Stick upon impact
Le
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ard
Win
dw
ard
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Particulate Emissions
Particle Relaxation time
Stokes-Cunningham Slip Correction Factor
Stokes Number
Capture Efficiency
Motion of Spherical Particle
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Particle Capture Efficiency vs. Particle Diameter for Different Surfaces
Particulate Deposition Patterns
(a) Windward Wall; (b) Leeward Wall; (c) Roofs; (d) Road
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Particle Capture Efficiency vs. Stokes Number for Different Wind Velocities
Particulate Deposition Patterns
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Particulate Deposition Patterns
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Particulate Deposition Patterns
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Future WorkFuture Work
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Computational Model
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Computational Model
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Flow Field Results
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Flow Field Results
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Flow Field Results
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Flow Field Results
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Flow Field Results
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1. The present simulation has reasonable agreement with the experimental data from wind tunnel experiment performed by Meroney et al (1996).
2. Among the turbulence models used in this study, Reynolds Stress Transport model (RSTM) shows better agreement with experiment in most of the cases.
3. For higher wind speeds less gaseous emission will happen on the walls of the buildings.
4. Particle transport and deposition on the surfaces depend on the wind speed and size of the particles.
5. Particle deposition is controlled by Brownian motion for low velocities and Gravity for large particles.
Conclusions