UFR 3-35 References: Difference between revisions
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* Jenssen, U. (2019). Experimental Study of the Flow Around a Scouring Bridge Pier. PhD thesis, Technische Universität München, München. | * Jenssen, U. (2019). Experimental Study of the Flow Around a Scouring Bridge Pier. PhD thesis, Technische Universität München, München. | ||
* Kirkil, G. and Constantinescu, G. (2015). Effects of cylinder Reynolds number on the turbulent horseshoe vortex system and near wake of a surface-mounted circular cylinder. ''Physics of Fluids'' 27(7). | * Kirkil, G. and Constantinescu, G. (2015). Effects of cylinder Reynolds number on the turbulent horseshoe vortex system and near wake of a surface-mounted circular cylinder. ''Physics of Fluids'' 27(7). | ||
* Paik, J., Escauriaza, C., and Sotiropoulos, F. (2007). On the bimodal dynamics of the turbulent horseshoe vortex system in a wing-body junction. ''Physics of | * Paik, J., Escauriaza, C., and Sotiropoulos, F. (2007). On the bimodal dynamics of the turbulent horseshoe vortex system in a wing-body junction. ''Physics of Fluids'' (19):045107. | ||
Fluids'' (19):045107. | |||
* Schanderl, W. (2018). Large-Eddy Simulation of the flow around a wall-mounted cylinder. PhD thesis, Technische Universität München, München. | * Schanderl, W. (2018). Large-Eddy Simulation of the flow around a wall-mounted cylinder. PhD thesis, Technische Universität München, München. | ||
* Schanderl, W., Jenssen, U., Strobl, C., and Manhart, M. (2017). The structure and budget of turbulent kinetic energy in front of a wall-mounted cylinder. ''Journal of Fluid Mechanics'' 827:285-321. | * Schanderl, W., Jenssen, U., Strobl, C., and Manhart, M. (2017). The structure and budget of turbulent kinetic energy in front of a wall-mounted cylinder. ''Journal of Fluid Mechanics'' 827:285-321. |
Revision as of 13:21, 28 August 2019
Cylinder-wall junction flow
Underlying Flow Regime 3-35
References
- Apsilidis, N., Diplas, P., Dancey, C. L., and Bouratsis, P. (2015). Time-resolved flow dynamics and Reynolds number effects at a wall-cylinder junction. Journal of Fluid Mechanics 776:475-511.
- Dargahi, B. (1989). The turbulent flow field around a circular cylinder. Experiments in Fluids 8(1-2):1-12.
- Devenport, W. J. and Simpson, R. L. (1990). Timedependent and time-averaged turbulence structure near the nose of a wing-body junction. Journal of Fluid Mechanics 210:23-55.
- Escauriaza, C. and Sotiropoulos, F. (2011). Reynolds Number Effects on the Coherent Dynamics of the Turbulent Horseshoe Vortex System. Flow, Turbulence and Combustion 86(2):231-262.
- Jenssen, U. (2019). Experimental Study of the Flow Around a Scouring Bridge Pier. PhD thesis, Technische Universität München, München.
- Kirkil, G. and Constantinescu, G. (2015). Effects of cylinder Reynolds number on the turbulent horseshoe vortex system and near wake of a surface-mounted circular cylinder. Physics of Fluids 27(7).
- Paik, J., Escauriaza, C., and Sotiropoulos, F. (2007). On the bimodal dynamics of the turbulent horseshoe vortex system in a wing-body junction. Physics of Fluids (19):045107.
- Schanderl, W. (2018). Large-Eddy Simulation of the flow around a wall-mounted cylinder. PhD thesis, Technische Universität München, München.
- Schanderl, W., Jenssen, U., Strobl, C., and Manhart, M. (2017). The structure and budget of turbulent kinetic energy in front of a wall-mounted cylinder. Journal of Fluid Mechanics 827:285-321.
- Schanderl, W. and Manhart, M. (2016). Reliability of wall shear stress estimations of the flow around a wall-mounted cylinder. Computers and Fluids 128:16-29.
Contributed by: Ulrich Jenssen, Wolfgang Schanderl, Michael Manhart — Technical University Munich
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