Comparison of Flexible and Rigid Vegetation Induced Shear Layers in Partly Vegetated Channels
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A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
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Date
2021-03
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Language
en
Pages
17
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Water Resources Research, Volume 57, issue 3
Abstract
Natural riparian vegetation generally presents a complex hydrodynamic behavior governed by plant morphology and flexibility. By contrast, hydrodynamic processes in partly vegetated channels are conventionally simulated by using simplified model vegetation, such as arrays of rigid cylinders. The aim of this study is to investigate the impacts of embedding natural plant features in the experimental simulation of flow in partly vegetated channels. Unique comparative experiments were carried out with both reconfiguring vegetation made of natural-like shrubs and grasses, and with rigid cylinders. While the lateral distributions of flow properties presented a high similarity governed by the shear layer differential velocity ratio, the bulk vegetative drag, and the presence of large-scale vortices, the flexibility-induced mechanisms of natural-like vegetation markedly affected the flow at the interface. Differences in plant morphology and spacing, and the dynamic motion of flexible foliated plants induced deeper vortex penetration into the vegetation. The normalized shear penetration was 6–10 times greater than observed for rigid cylinders, resulting in wider zones significantly exchanging momentum with the adjacent open water. The efficiency of lateral momentum transport for flexible foliated vegetation was up to 40% greater than the corresponding rigid cylinder case. Overall, the results indicated that improving the representativeness of model vegetation is a critical step toward the accurate simulation of hydrodynamic and transport processes in natural settings.Description
Funding Information: The authors thank the technician Antti Louhio for his help in arranging the experiments at the Environmental Hydraulics Lab of Aalto University. The authors acknowledge the support from the technicians Antonio Fusco and Domenico Palmiero of the Laboratory of Hydraulics of University of Naples Federico II. The authors acknowledge funding from Maa‐ ja vesitekniikan tuki ry (Grant No. 33271), Maj and Tor Nessling Foundation (Grant No. 201800045), Academy of Finland (Grant No. 330217), and from statutory activities No. 3841/E‐41/S/2020 of the Ministry of Science and Higher Education of Poland. Publisher Copyright: © 2021. The Authors. Copyright: Copyright 2021 Elsevier B.V., All rights reserved.
Keywords
momentum transport, partly vegetated channels, reconfiguration, shear layer, turbulence, vegetation
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Citation
Caroppi, G, Västilä, K, Gualtieri, P, Järvelä, J, Giugni, M & Rowiński, P M 2021, ' Comparison of Flexible and Rigid Vegetation Induced Shear Layers in Partly Vegetated Channels ', Water Resources Research, vol. 57, no. 3, e2020WR028243 . https://doi.org/10.1029/2020WR028243