(Mechanics of Fluids and Thermal Systems)
Symposium Organizer:
James D. Baeder, University of Maryland
baeder@umd.edu
Symposium Technical Description
Many engineering vehicles of practical importance have complex components with various length scales that result in highly viscous interactional flows. The accurate modeling of the flow structures arising from these complex geometries remains a challenging task. High-order algorithms are often advantageous to decrease the need for fine mesh resolution. This symposium aims to focus on recent developments in overset and unstructured mesh systems and the solutions of such systems for modeling the viscous flow over complex structures.
Technical Program
Tuesday | T3 15:00pm-16:40pm
| B7-1: Viscous Flow Simulations Over Complex Geometries | ||
| Room 1311 | Session Chair: Bharath Govindarajan, James Baeder | Track B: Mechanics of Fluids and Thermal Systems |
| 15:00 pm | A high-order nonconforming sliding-mesh method for simulating unsteady compressible viscous flows around rotating objects
Chunlei Liang |
|
| 15:20 pm | Solution algorithm for unstructured grids using a hamiltonian-strand approach
YongSu Jung |
|
| 15:40 pm | Adaptive wavelet multiresolution pseudo-spectral solver for nonlinear partial differential equations
Cale Harnish, Karel Matouš, Daniel Livescu |
|
| 16:00 pm | Shock wave spotting in convergent-divergent nozzles
Hady Joumaa |
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