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We will present an overview of high-resolution, Navier-Stokes based simulations of gravity/turbidity currents and river outflows.
We will present an overview of high-resolution, Navier-Stokes based simulations of gravity/turbidity currents and river outflows. The turbidity currents we consider are driven by particles that have negligible inertia and are much smaller than the smallest length scales of the buoyancy-induced fluid motion. For the mathematical description of the particulate phase an Eulerian approach is employed, with a transport equation for the particle-number density. The governing equations are integrated numerically with high-order techniques.
We will discuss differences between two- and three-dimensional turbidity current dynamics, along with effects due to complex topography and background stratification. Results will be shown for the unsteady interaction of a gravity current with a submarine structure, such as a pipeline. Furthermore, we will discuss the linear stability problem of channel and sediment wave formation by turbidity currents.
- Speaker
- Professor Eckart Meiburg (Mechanical Engineering at UC Santa Barbara)
- Venue
- FN Rm 185