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    Numerical simulation of air entrainment in uniform chute flow

    New search for: Hohermuth, Benjamin
    New search for: Schmocker, Lukas
    New search for: Boes, Robert M.
    New search for: Vetsch, David F.

    Numerical models are used increasingly to tackle aerated flows for example in spillway design. However, these models are usually empirical and often lack thorough calibration. Herein a mixture model is calibrated with experimental data on uniform aerated flow from literature. A commercial code was used to solve the mixture Reynolds-averaged Navier–Stokes equations. Air entrainment was modelled with a turbulent kinetic energy based sub-grid model. The effects of drag, swarm correction and bubble diameter were evaluated with different models for sub-grid scale air-transport. Employing dynamic bubble size calculation and swarm correction resulted in ∼10% typical error in the simulated mixture flow depth and concentration profile for chute slopes from 7.5° to 75° and unit discharges from 0.20 to 0.51 m2 s−1. The obtained calibration parameters are independent of mean air concentration over a wide range of parameters; thereby providing a basis for air entrainment simulations of more complex flows.

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    Numerical simulation of air entrainment in uniform chute flow

    New search for: Hohermuth, Benjamin
    New search for: Schmocker, Lukas
    New search for: Boes, Robert M.
    New search for: Vetsch, David F.

    Numerical models are used increasingly to tackle aerated flows for example in spillway design. However, these models are usually empirical and often lack thorough calibration. Herein a mixture model is calibrated with experimental data on uniform aerated flow from literature. A commercial code was used to solve the mixture Reynolds-averaged Navier–Stokes equations. Air entrainment was modelled with a turbulent kinetic energy based sub-grid model. The effects of drag, swarm correction and bubble diameter were evaluated with different models for sub-grid scale air-transport. Employing dynamic bubble size calculation and swarm correction resulted in ∼10% typical error in the simulated mixture flow depth and concentration profile for chute slopes from 7.5° to 75° and unit discharges from 0.20 to 0.51 m2 s−1. The obtained calibration parameters are independent of mean air concentration over a wide range of parameters; thereby providing a basis for air entrainment simulations of more complex flows.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Numerical simulation of air entrainment in uniform chute flow

    New search for: Hohermuth, Benjamin
    New search for: Schmocker, Lukas
    New search for: Boes, Robert M.
    New search for: Vetsch, David F.

    Numerical models are used increasingly to tackle aerated flows for example in spillway design. However, these models are usually empirical and often lack thorough calibration. Herein a mixture model is calibrated with experimental data on uniform aerated flow from literature. A commercial code was used to solve the mixture Reynolds-averaged Navier–Stokes equations. Air entrainment was modelled with a turbulent kinetic energy based sub-grid model. The effects of drag, swarm correction and bubble diameter were evaluated with different models for sub-grid scale air-transport. Employing dynamic bubble size calculation and swarm correction resulted in ∼10% typical error in the simulated mixture flow depth and concentration profile for chute slopes from 7.5° to 75° and unit discharges from 0.20 to 0.51 m2 s−1. The obtained calibration parameters are independent of mean air concentration over a wide range of parameters; thereby providing a basis for air entrainment simulations of more complex flows.

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    Order at Subito €

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    Title:

    Numerical simulation of air entrainment in uniform chute flow

    Contributors:

    Hohermuth, Benjamin (author) / Schmocker, Lukas (author) / Boes, Robert M. (author) / Vetsch, David F. (author)

    Published in:

    Journal of Hydraulic Research ; 59 ; 378-391

    Publication date:

    2021-05-04

    Size:

    14 pages

    ISSN:

    0022-1686 , 1814-2079

    DOI:

    https://doi.org/10.1080/00221686.2020.1780492

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Aerated flows , chute flow , drift-flux , RANS model , mixture model

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