High Resolution Simulations of Turbidity Currents and River Outflows Eckart Meiburg UC Santa...
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High Resolution Simulations of Turbidity Currents and River Outflows Eckart Meiburg UC Santa Barbara
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High Resolution Simulations ofTurbidity Currents and River Outflows
Eckart Meiburg
UC Santa Barbara
Coastal margin processes
Turbidity current
Turbidity current.http://www.clas.ufl.edu/
• Underwater sediment flow down the continental slope• Can transport many km3 of sediment• Can flow O(1,000)km or more• Often triggered by storms or earthquakes• Repeated turbidity currents in the same region can lead to the formation of hydrocarbon reservoirs• Properties of turbidite: - particle layer thickness - particle size distribution - pore size distribution
Results: 3D turbidity current – Temporal evolution
Necker, Härtel, Kleiser and Meiburg (2002a,b)
DNS simulation (Fourier, spectral element, 7x107 grid points)
• turbidity current develops lobe-and-cleft instability of the front
• current is fully turbulent
• erosion, resuspension not accounted for
Interaction of gravity currents with submarine topography:
Filling of a minibasin (w. M. Nasr, B. Hall)
Turbidity current/sediment bed interaction (w. M. Nasr)
‘Flow stripping’ in channel turns: lateral overflows
Long term strategy:
• carry out simulation of polydisperse turbidity current
• obtain spatial grain size distribution of the deposit
• convert grain size distribution into permeability and
porosity distribution
• feed permeability/porosity distribution into reservoir simulator
• carry out simulations of porous media displacement processes
Couple turbidity current solver to reservoir simulator
Channelization by turbidity currents: A Navier-Stokes based linear instability mechanism (with B. Hall, B. Kneller)
• Hydrodynamic instability?
Field data show regularly spaced channels along the ocean floor
Sediment wave formation by turbidity currents (w. B. Hall, L. Lesshafft, B. Kneller)
Large scale wave forms at the ocean floor
• sediment waves are prime targets for oil reservoir formation• formed by turbidity currents and bottom flows; mechanism?• traditional assumption: lee waves, but no rigorous stability analysis available
Sedimentation from river outflows (w. Peter Burns)
• Leaking mode
![Eckart Meiburg Modeling Gravity and Turbidity …...from turbidity current deposits plays an important role in oil and gas exploration [8]. From an engineering point of view, turbidity](https://static.fdocuments.in/doc/165x107/5f961f0fa181290f0d1b531d/eckart-meiburg-modeling-gravity-and-turbidity-from-turbidity-current-deposits.jpg)
