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Turbulent shear layers in confining channels |
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| Authors: | Graham P. Benham Alfonso A. Castrejon-Pita Ian J. Hewitt Colin P. Please Rob W. Style Paul A. D. Bird |
| Affiliation: | 1. Mathematical Institute, University of Oxford, Oxford, United Kingdom;2. Department of Engineering Science, University of Oxford, Oxford, United Kingdom;3. Department of Materials, ETH Zürich, Zürich, Switzerland;4. VerdErg Renewable Energy Limited, Kingston upon Thames, United Kingdom |
| Abstract: | We present a simple model for the development of shear layers between parallel flows in confining channels. Such flows are important across a wide range of topics from diffusers, nozzles and ducts to urban air flow and geophysical fluid dynamics. The model approximates the flow in the shear layer as a linear profile separating uniform-velocity streams. Both the channel geometry and wall drag affect the development of the flow. The model shows good agreement with both particle image velocimetry experiments and computational turbulence modelling. The simplicity and low computational cost of the model allows it to be used for benchmark predictions and design purposes, which we demonstrate by investigating optimal pressure recovery in diffusers with non-uniform inflow. |
| Keywords: | Solvable or simplified models shear layer channel flow experimental techniques turbulence modelling |