Large eddy simulation of flow over a wall-mounted cube placed in a turbulent boundary layer. Shinde, S., Johnsen, E., & Maki, K. J In 47th AIAA Fluid Dynamics Conference, pages 3640, 2017.
Large eddy simulation of flow over a wall-mounted cube placed in a turbulent boundary layer [link]Paper  abstract   bibtex   
Large Eddy Simulation of flow over a wall-mounted cube in a channel was performed at Reynolds number of 40000. The subgrid-scale stress terms were obtained using the Selective Structure Function model (SSF) in which eddy viscosity is switched off in the regions where the flow is not three-dimensionally enough. A series of time-averaged velocities and Reynolds stresses are computed and compared with experimental data. It is shown that in general with a coarse grid resolution, it is possible to obtain relatively accurate results as compared to the experiment.
@inproceedings{shinde2017large,
	Author = {Shinde, Siddhesh and Johnsen, Eric and Maki, Kevin J},
	Booktitle = {47th AIAA Fluid Dynamics Conference},
	Pages = {3640},
	Title = {Large eddy simulation of flow over a wall-mounted cube placed in a turbulent boundary layer},
	url = {https://www.osti.gov/etdeweb/biblio/21100906},
	abstract = {Large Eddy Simulation of flow over a wall-mounted cube in a channel was performed at Reynolds number of 40000. The subgrid-scale stress terms were obtained using the Selective Structure Function model (SSF) in which eddy viscosity is switched off in the regions where the flow is not three-dimensionally enough. A series of time-averaged velocities and Reynolds stresses are computed and compared with experimental data. It is shown that in general with a coarse grid resolution, it is possible to obtain relatively accurate results as compared to the experiment. },
	Year = {2017}}
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