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Role of low-order proper orthogonal decomposition modes and large-scale coherent structures on sediment particle entrainment
This study presents experimental investigations of entrainment events of a single sediment particle resting in a small pocket on a smooth bed in an open channel flow. The data were acquired with a tomographic particle tracking velocimetry system. The shake the box algorithm, a spatially high resolved Lagrangian tracking method, was applied to determine time-resolved and three-dimensional flow velocities in a volume during particle entrainment. The proper orthogonal decomposition (POD) method was applied to identify motions in the flow field carrying the most turbulent kinetic energy (TKE). Based on the POD method, the most energetic flow structures were linked with the occurring quadrant events at particle entrainment. It was shown that particle entrainment follows TKE peaks based on low-order POD modes caused by large sweeps. Two streamwise elongated counter rotating vortices with emerging sweeps in between were observed during particle entrainment. Here, most of the TKE exists in the first POD mode. This signature is suggested to be part of very large-scale coherent motions.
Role of low-order proper orthogonal decomposition modes and large-scale coherent structures on sediment particle entrainment
This study presents experimental investigations of entrainment events of a single sediment particle resting in a small pocket on a smooth bed in an open channel flow. The data were acquired with a tomographic particle tracking velocimetry system. The shake the box algorithm, a spatially high resolved Lagrangian tracking method, was applied to determine time-resolved and three-dimensional flow velocities in a volume during particle entrainment. The proper orthogonal decomposition (POD) method was applied to identify motions in the flow field carrying the most turbulent kinetic energy (TKE). Based on the POD method, the most energetic flow structures were linked with the occurring quadrant events at particle entrainment. It was shown that particle entrainment follows TKE peaks based on low-order POD modes caused by large sweeps. Two streamwise elongated counter rotating vortices with emerging sweeps in between were observed during particle entrainment. Here, most of the TKE exists in the first POD mode. This signature is suggested to be part of very large-scale coherent motions.
Role of low-order proper orthogonal decomposition modes and large-scale coherent structures on sediment particle entrainment
Schobesberger, Johannes (Autor:in) / Worf, Dominik (Autor:in) / Lichtneger, Petr (Autor:in) / Yücesan, Sencer (Autor:in) / Hauer, Christoph (Autor:in) / Habersack, Helmut (Autor:in) / Sindelar, Christine (Autor:in)
Journal of Hydraulic Research ; 60 ; 108-124
02.01.2022
17 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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