Analytical models for velocity distributions in open channel flows

Xiaonan Tang; Donald W.Knight Iahr

doi:10.1080/00221686.2009.9522017

Analytical models for velocity distributions in open channel flows

Xiaonan Tang^*, Donald W.Knight Iahr

^*Corresponding author for this work

University of Birmingham

Research output: Contribution to journal › Article › peer-review

40 Citations (Scopus)

Abstract

Various models for the analytical solution to the depth-integrated Navier-Stokes equations, applied to open channel flows, are discussed. These models include the effects of bed friction, lateral turbulence and secondary flows. The model developed by Shiono and Knight (1988, 1991) is compared with those by Ervine et al. (2000) and Castanedo et al. (2005) through numerical experiments on both simple and compound channels. These tests show that the impact of the secondary flow term on the results is significant. It is also shown that the dimensionless eddy viscosity coefficient has less influence on the results than the secondary flow terms for overbank flows, but is important for inbank flows. A comparison of the analytical results with experimental data shows that the model by Shiono and Knight produces well velocity distributions within open channels of various prismatic shapes.

Original language	English
Pages (from-to)	418-428
Number of pages	11
Journal	Journal of Hydraulic Research/De Recherches Hydrauliques
Volume	47
Issue number	4
DOIs	https://doi.org/10.1080/00221686.2009.9522017
Publication status	Published - 2009
Externally published	Yes

Keywords

Analytical models
Momentum transfer
Overbank flow
Rivers
Secondary flow
Velocity

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10.1080/00221686.2009.9522017

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title = "Analytical models for velocity distributions in open channel flows",

abstract = "Various models for the analytical solution to the depth-integrated Navier-Stokes equations, applied to open channel flows, are discussed. These models include the effects of bed friction, lateral turbulence and secondary flows. The model developed by Shiono and Knight (1988, 1991) is compared with those by Ervine et al. (2000) and Castanedo et al. (2005) through numerical experiments on both simple and compound channels. These tests show that the impact of the secondary flow term on the results is significant. It is also shown that the dimensionless eddy viscosity coefficient has less influence on the results than the secondary flow terms for overbank flows, but is important for inbank flows. A comparison of the analytical results with experimental data shows that the model by Shiono and Knight produces well velocity distributions within open channels of various prismatic shapes.",

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T1 - Analytical models for velocity distributions in open channel flows

AU - Tang, Xiaonan

AU - Iahr, Donald W.Knight

PY - 2009

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N2 - Various models for the analytical solution to the depth-integrated Navier-Stokes equations, applied to open channel flows, are discussed. These models include the effects of bed friction, lateral turbulence and secondary flows. The model developed by Shiono and Knight (1988, 1991) is compared with those by Ervine et al. (2000) and Castanedo et al. (2005) through numerical experiments on both simple and compound channels. These tests show that the impact of the secondary flow term on the results is significant. It is also shown that the dimensionless eddy viscosity coefficient has less influence on the results than the secondary flow terms for overbank flows, but is important for inbank flows. A comparison of the analytical results with experimental data shows that the model by Shiono and Knight produces well velocity distributions within open channels of various prismatic shapes.

AB - Various models for the analytical solution to the depth-integrated Navier-Stokes equations, applied to open channel flows, are discussed. These models include the effects of bed friction, lateral turbulence and secondary flows. The model developed by Shiono and Knight (1988, 1991) is compared with those by Ervine et al. (2000) and Castanedo et al. (2005) through numerical experiments on both simple and compound channels. These tests show that the impact of the secondary flow term on the results is significant. It is also shown that the dimensionless eddy viscosity coefficient has less influence on the results than the secondary flow terms for overbank flows, but is important for inbank flows. A comparison of the analytical results with experimental data shows that the model by Shiono and Knight produces well velocity distributions within open channels of various prismatic shapes.

KW - Analytical models

KW - Momentum transfer

KW - Overbank flow

KW - Rivers

KW - Secondary flow

KW - Velocity

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DO - 10.1080/00221686.2009.9522017

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JF - Journal of Hydraulic Research/De Recherches Hydrauliques

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Analytical models for velocity distributions in open channel flows

Abstract

Keywords

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