Rigid Body Dynamics (I) COMP259 March 28, 2006 Nico Galoppo von Borries.
PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view ·...
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Transcript of PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view ·...
![Page 1: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/1.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Fluid Dynamics with ErosionBrandon LloydCOMP 259May 2003
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Overview • Sediment transport in open
channels Bed-load transport Suspensed transport
• Sediment transport models• Model used for this project• Implementation issues• Future work
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Sediment Transport• Bed-load transport: sliding,
rolling, saltating• Suspended transport:
sediment moves through the fluid
Sediment
Suspension
Bed-load
Bed
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Bed-load transportOnce the forces actingon particles are strongenough to intiate motion…
… particles slide, roll, and saltate down the river bed at a steady rate.
Figure from Chanson, p. 180
Figure from Chanson, p. 200
![Page 5: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/5.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Suspended Transport
Suspension occurs here
• Particles entrained at the bed-load layer
• Transported by convection, diffusion, and turbulence
Figure from Chanson, p. 200
![Page 6: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/6.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Sediment Transport Models
• Difficult problem – most models are empirical.
• Usually make simplifying assumptions about flow.
• Many different formulas exist.
Table from Chanson, p. 198
![Page 7: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/7.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
My Model• Simplified version of
model used in [Haupt et al. 1999]
• Transport occurs above critical velocity.
• Fluid has a transport capacity related to velocity.
• Concentration of sediment relative to capacity determines change in terrain
height : porosity :
ionconcentratsediment : constants:
velocityfall:
velocitycritical : velocityfluid :
erosionaccretion
1
,
0
0
2
2,
2
21
h P
cCw
vv
qcqc
)P)(q(c t
hw
vvCqwCv
s
i
s
c,s
ss
ss
ssbed
s
scssc,s
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Implementation Issues• Semi-
Lagrangian advection causes mass loss in the presence of eddies.
• What to do at boundaries?
zero concentration
backward tracing doesnot see wall mass loss.
![Page 9: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/9.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Implementation Issues• Semi-
Lagrangian advection causes mass loss in the presence of eddies.
• What to do at boundaries?
Recycle concentration(limits the time-step)
![Page 10: PowerPoint Presentationcs.unc.edu/~blloyd/comp259/project/erosio… · PPT file · Web view · 2003-05-08Fluid Dynamics with Erosion Brandon Lloyd COMP 259 May 2003 Overview Sediment](https://reader033.fdocuments.net/reader033/viewer/2022051803/5aff35667f8b9a434e903f35/html5/thumbnails/10.jpg)
The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Results• Nice swirls of sediment with
erosion and deposition at interactive rates (on a fast machine .)
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
Future Work• Add bed-load transport• Add instability based on slope• Add variable material properties• Fix spikes and improve robustness• Better handling of velocities near
heightfield.• Experiment with and compare different
fluid/advection models• Add a free surface• Implement on GPU
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The UNIVERSITY of NORTH CAROLINA at CHAPEL HILL
ReferencesCHANSON, H. 1999. The Hydraulics of Open Channel
Flow: An Introduction. Arnold.
HAUPT, B. J., SEIDOV, D. AND STATTEGGER, K. 1999. SEDLOB and PATLOB: Two numerical tools for modeling climatically forced sediment and water volume transport in large ocean basins. In Computerized Modeling of Sedimentary Systems. Springer-Verlag, Berlin.
WU, W., RODI, W. AND THOMAS, W. 2000. 3D numerial modeling of flow and sediment transport in open channels. Journal of Hydraulic Engineering, 4-15.