Numerical assessment of canopy blocking effect on partly-obstructed channel flows: from perturbations to vortices

The evolution and characteristics of large-scale vortices are critical for understanding temporal and spatial exchange of mass and momentum. Using a validated depth-averaged large-eddy simulation (DA-LES) model, this paper visualizes the vortex processes in a partly-obstructed canopy channel, and an...

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Published in	Engineering applications of computational fluid mechanics Vol. 16; no. 1; pp. 1761 - 1780
Main Authors	Jia, Yuan-Yuan, Yao, Zhi-Dong, Duan, Huan-Feng, Wang, Xie-Kang, Yan, Xu-Feng
Format	Journal Article
Language	English
Published	Hong Kong Taylor & Francis 31.12.2022 Taylor & Francis Ltd Taylor & Francis Group
Subjects	blocking ratio Canopies Channel flow DA-LES Evolution Fluid mechanics Hydrodynamics Large eddy simulation Partly-obstructed canopy flow Perturbation Shear layers Velocity distribution vortex evolution Vortices
Online Access	Get full text
ISSN	1994-2060 1997-003X
DOI	10.1080/19942060.2022.2109757

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Abstract	The evolution and characteristics of large-scale vortices are critical for understanding temporal and spatial exchange of mass and momentum. Using a validated depth-averaged large-eddy simulation (DA-LES) model, this paper visualizes the vortex processes in a partly-obstructed canopy channel, and analyzes associated hydrodynamics. Particular interests are focused on the effect of canopy blocking ratio (canopy-to-channel width ratio) reflecting vegetation lateral colonization extent, which is poorly addressed by current knowledge. We find that two vortex evolution patterns including sequent sole along-canopy vortices (SCVs) and alternating hybrid along-canopy and along-wall paired vortices (HCWVs) correspond to small and large blocking ratios, respectively. Particularly for the latter, the outer length of along-canopy vortices decreases once along-wall vortices arise, with the vortex fields characterized by pronounced decreased wavelength and increased wave number. Hyperbolic tangent velocity profiles typically for shear layer flows with SCVs shift to parabolic ones as HCWVs dominate. The simulations imply that the key mechanism of SCVs shifting to HCWVs is that along-canopy vortices touch the main-channel sidewall when canopy width continuously increases, triggering vortices shedding off the sidewall. New insights into sediment deposition in the main channel are achieved as the hydrodynamics and vortex fields alter under different canopy blocking extents.
AbstractList	The evolution and characteristics of large-scale vortices are critical for understanding temporal and spatial exchange of mass and momentum. Using a validated depth-averaged large-eddy simulation (DA-LES) model, this paper visualizes the vortex processes in a partly-obstructed canopy channel, and analyzes associated hydrodynamics. Particular interests are focused on the effect of canopy blocking ratio (canopy-to-channel width ratio) reflecting vegetation lateral colonization extent, which is poorly addressed by current knowledge. We find that two vortex evolution patterns including sequent sole along-canopy vortices (SCVs) and alternating hybrid along-canopy and along-wall paired vortices (HCWVs) correspond to small and large blocking ratios, respectively. Particularly for the latter, the outer length of along-canopy vortices decreases once along-wall vortices arise, with the vortex fields characterized by pronounced decreased wavelength and increased wave number. Hyperbolic tangent velocity profiles typically for shear layer flows with SCVs shift to parabolic ones as HCWVs dominate. The simulations imply that the key mechanism of SCVs shifting to HCWVs is that along-canopy vortices touch the main-channel sidewall when canopy width continuously increases, triggering vortices shedding off the sidewall. New insights into sediment deposition in the main channel are achieved as the hydrodynamics and vortex fields alter under different canopy blocking extents.
Author	Duan, Huan-Feng Yao, Zhi-Dong Yan, Xu-Feng Jia, Yuan-Yuan Wang, Xie-Kang
Author_xml	– sequence: 1 givenname: Yuan-Yuan surname: Jia fullname: Jia, Yuan-Yuan organization: Sichuan University – sequence: 2 givenname: Zhi-Dong surname: Yao fullname: Yao, Zhi-Dong organization: Sichuan University – sequence: 3 givenname: Huan-Feng surname: Duan fullname: Duan, Huan-Feng organization: The Hong Kong Polytechnic University – sequence: 4 givenname: Xie-Kang surname: Wang fullname: Wang, Xie-Kang organization: Sichuan University – sequence: 5 givenname: Xu-Feng surname: Yan fullname: Yan, Xu-Feng email: xufeng.yan@scu.edu.cn organization: Key Laboratory of State Forestry and Grassland Administration on Soil and Water Conservation
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SubjectTerms	blocking ratio Canopies Channel flow DA-LES Evolution Fluid mechanics Hydrodynamics Large eddy simulation Partly-obstructed canopy flow Perturbation Shear layers Velocity distribution vortex evolution Vortices
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Title	Numerical assessment of canopy blocking effect on partly-obstructed channel flows: from perturbations to vortices
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