Kinetic energy and momentum correction coefficients in straight compound channels with vegetated floodplain

•Velocity distribution coefficients (α and β) in compound channels are investigated.•The effect of flow relative depth and vegetation density are analyzed.•Some new empirical equations were developed for calculation of α and β.•Vegetation can increase the average values of coefficients α and β by 52...

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Published in:Journal of hydrology (Amsterdam) 2016-06, Vol.537, p.10-17
Main Authors: Hamidifar, H., Omid, M.H., Keshavarzi, A.
Format: Article
Language:English
Subjects:
Asymmetry
Channel flow
Compound channel flow
Compound channels
Density
Doppler effect
Floodplain vegetation
Kinetic energy
Kinetic energy coefficient
Mathematical analysis
Momentum correction
Vegetation
Velocity distribution
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creator Hamidifar, H.
Omid, M.H.
Keshavarzi, A.
description •Velocity distribution coefficients (α and β) in compound channels are investigated.•The effect of flow relative depth and vegetation density are analyzed.•Some new empirical equations were developed for calculation of α and β.•Vegetation can increase the average values of coefficients α and β by 52.8% and 21.6%, respectively. In this paper, the effect of flow relative depth (ratio of the floodplain to the main channel flow depths) and vegetation density on the kinetic energy and momentum correction coefficients (termed as α and β, respectively) was described based on an experimental study. A series of experiments was run using rigid dowels with seven flow relative depths and four vegetation densities in an asymmetric compound channel. The local flow velocities were measured using an acoustic Doppler velocimeter (ADV). Using regression analysis, velocity data were considered and equations were developed for calculating the kinetic energy and momentum correction coefficients as a function of the flow relative depth and vegetation density. The results show that the values of α and β decrease as the relative depth increases. Also, as the vegetation density increases, the effects of the vegetation on α and β increase too. Finally, by comparing with the findings of the previous researchers, it was found that the average values of the α for asymmetric compound channels with vegetation are 26.5% and 43.3% greater than those for asymmetric and symmetric compound channels without vegetation respectively while these values for β are 12.7% and 18.1%, respectively. Furthermore, the floodplain vegetation can increase the average values of coefficients α and β by 52.8% and 21.6%, respectively, in comparison with single channels.
doi_str_mv 10.1016/j.jhydrol.2016.03.024
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In this paper, the effect of flow relative depth (ratio of the floodplain to the main channel flow depths) and vegetation density on the kinetic energy and momentum correction coefficients (termed as α and β, respectively) was described based on an experimental study. A series of experiments was run using rigid dowels with seven flow relative depths and four vegetation densities in an asymmetric compound channel. The local flow velocities were measured using an acoustic Doppler velocimeter (ADV). Using regression analysis, velocity data were considered and equations were developed for calculating the kinetic energy and momentum correction coefficients as a function of the flow relative depth and vegetation density. The results show that the values of α and β decrease as the relative depth increases. Also, as the vegetation density increases, the effects of the vegetation on α and β increase too. 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subjects Asymmetry
Channel flow
Compound channel flow
Compound channels
Density
Doppler effect
Floodplain vegetation
Kinetic energy
Kinetic energy coefficient
Mathematical analysis
Momentum correction
Vegetation
Velocity distribution
title Kinetic energy and momentum correction coefficients in straight compound channels with vegetated floodplain
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