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    Unsteady Flow in Long Drainage Systems

    New search for: J. A. Swaffield
    New search for: S. Bridge
    New search for: L. S. Galowin

    The effect of flow attenuation on drainage design is identified and is shown to be modelled by the partially filled unsteady pipe flow equations. Numerical solutions to these equations are presented and validated against laboratory testing at flow rates appropriate to installed drainage systems. Application of the method to both steep fronted waves and solids moving through the pipe system are also presented.

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    Unsteady Flow in Long Drainage Systems

    New search for: J. A. Swaffield
    New search for: S. Bridge
    New search for: L. S. Galowin

    The effect of flow attenuation on drainage design is identified and is shown to be modelled by the partially filled unsteady pipe flow equations. Numerical solutions to these equations are presented and validated against laboratory testing at flow rates appropriate to installed drainage systems. Application of the method to both steep fronted waves and solids moving through the pipe system are also presented.

    Access

    Access via TIB
    Check availability in my library

    Unsteady Flow in Long Drainage Systems

    New search for: J. A. Swaffield
    New search for: S. Bridge
    New search for: L. S. Galowin

    The effect of flow attenuation on drainage design is identified and is shown to be modelled by the partially filled unsteady pipe flow equations. Numerical solutions to these equations are presented and validated against laboratory testing at flow rates appropriate to installed drainage systems. Application of the method to both steep fronted waves and solids moving through the pipe system are also presented.

    Access

    Access via TIB
    Check availability in my library

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    Document information
    Title:

    Unsteady Flow in Long Drainage Systems

    Contributors:

    J. A. Swaffield (author) / S. Bridge (author) / L. S. Galowin (author)

    Publication date:

    1983

    Size:

    12 pages

    Type of media:

    Report

    Type of material:

    No indication

    Language:

    English

    Keywords:

    Fluid Mechanics , Industrial & Mechanical Engineering , Drains , Pipe flow , Solids flow , Unsteady flow , Piping systems , Drainage , Reprints

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