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- Title
Coherent Structures of a Turbulent Flow Bounded by a Compact Permeable Wall.
- Authors
Arthur, James K.
- Abstract
In order to optimize the use of compact porous media as flow and heat transfer devices, it is imperative to understand those coherent structures of the associated flow that generate and sustain turbulence. Given the deficiency of data regarding this area in the literature, this study has been carried out to fill this need. To this end, a series of particle image velocimetry measurements were conducted to capture a turbulent flow field bounded by a model permeable medium of 85% porosity. The bulk Reynolds numbers based on the bulk velocity through the entire flow domain and the depth of flow over the permeable boundary are approximately 5.0 × 103 and 2.0 × 104. By applying velocity gradient eigenanalysis, quadrant decomposition, multi-point correlations, and proper orthogonal decomposition, requisite information about the coherent structures of the flow field is extracted. The results indicate the existence of spatial structures whose order, size, and orientation are dependent on the Reynolds number and location along the permeable boundary. While the largest scales are marked by sweeps, ejections, and high vortex activity, there is evidence of inward and outward interactive events at the upstream portions of the permeable boundary layer flow. This work helps to clarify some observations made on turbulent flow over the compact permeable boundary.
- Subjects
TURBULENCE; TURBULENT flow; PROPER orthogonal decomposition; BOUNDARY layer (Aerodynamics); REYNOLDS number; PARTICLE image velocimetry
- Publication
Fluids, 2022, Vol 7, Issue 5, pN.PAG
- ISSN
2311-5521
- Publication type
Article
- DOI
10.3390/fluids7050158