Turbidity currents 2009: Difference between revisions
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| class="presentations_col2"| Gravity Current Flow past a Circular Cylinder | | class="presentations_col2"| Gravity Current Flow past a Circular Cylinder | ||
| class="presentations_col3"| [[media:Gonzalez.ppt|ppt]] | | class="presentations_col3"| [[media:Gonzalez.ppt|ppt]] | ||
| | |- | ||
| class="presentations_col1"| R. Henniger | | class="presentations_col1"| R. Henniger | ||
| class="presentations_col2"| Direct Numerical Simulation of Particle Settling in Model Estuaries | | class="presentations_col2"| Direct Numerical Simulation of Particle Settling in Model Estuaries | ||
| class="presentations_col3"| [[media:Henniger.ppt|ppt]] | | class="presentations_col3"| [[media:Henniger.ppt|ppt]] | ||
| | |- | ||
| class="presentations_col1"| R. Groenenberg | | class="presentations_col1"| R. Groenenberg | ||
| class="presentations_col2"| Are relay ramps pathways for turbidity currents? | | class="presentations_col2"| Are relay ramps pathways for turbidity currents? | ||
| class="presentations_col3"| [[media:Groenenberg.pdf|pdf]] | | class="presentations_col3"| [[media:Groenenberg.pdf|pdf]] | ||
| | |- | ||
| class="presentations_col1"| L. Lesshafft | | class="presentations_col1"| L. Lesshafft | ||
| class="presentations_col2"| Inverse Modeling of sediment deposition from turbidity currents | | class="presentations_col2"| Inverse Modeling of sediment deposition from turbidity currents | ||
| class="presentations_col3"| [[media:Lesshafft_etal2.pdf|pdf]] | | class="presentations_col3"| [[media:Lesshafft_etal2.pdf|pdf]] | ||
| | |- | ||
| class="presentations_col1"| L. Lesshafft | | class="presentations_col1"| L. Lesshafft | ||
| class="presentations_col2"| Sediment Waves:linear stability of a turbidity current boundary layer | | class="presentations_col2"| Sediment Waves:linear stability of a turbidity current boundary layer | ||
| class="presentations_col3"| [[media:Lesshafft_etal1.pdf|pdf]] | | class="presentations_col3"| [[media:Lesshafft_etal1.pdf|pdf]] | ||
| | |- | ||
| class="presentations_col1"| E. Puhl | | class="presentations_col1"| E. Puhl | ||
| class="presentations_col2"| Turbidity currents physical modeling at different scales: data parameterization through dimensional analysis and multiple regression models | | class="presentations_col2"| Turbidity currents physical modeling at different scales: data parameterization through dimensional analysis and multiple regression models | ||
| class="presentations_col3"| [[media:TCW2009_Puhl.pdf|pdf]] | | class="presentations_col3"| [[media:TCW2009_Puhl.pdf|pdf]] | ||
|} | |} |
Revision as of 09:30, 19 June 2012
Date: June 1-3, 2009 |
Location: Department of Mechanical Engineering University of California, Santa Barbara (CA), USA |
Convenors: Eckart Meiburg (UCSB) and Ben Kneller (University of Aberdeen, UK) |
Sponsors
CSDMS
Introduction
Following the successful first workshop of 2005, this three-day informal meeting will be an opportunity for discussion on all aspects of the behaviour of turbidity and related gravity currents, including relevant studies on non-particulate gravity currents, from direct observations in the environment and the laboratory to numerical simulation. The workshop will consist of a combination of relatively informal plenary sessions, posters, and an offsite half-day excursion to promote informal discussion. We suggest that this should be a work- in-progress meeting, and anticipate perhaps 50 to 60 participants.
Circulars and Program
Presentations
Presentations given during the Turbidity and Gravity Currents Modeling meeting:
Presented by | Title | Download |
---|---|---|
E. Gonzalez-Juez | Gravity Current Flow past a Circular Cylinder | ppt |
R. Henniger | Direct Numerical Simulation of Particle Settling in Model Estuaries | ppt |
R. Groenenberg | Are relay ramps pathways for turbidity currents? | |
L. Lesshafft | Inverse Modeling of sediment deposition from turbidity currents | |
L. Lesshafft | Sediment Waves:linear stability of a turbidity current boundary layer | |
E. Puhl | Turbidity currents physical modeling at different scales: data parameterization through dimensional analysis and multiple regression models |