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    Investigation on friction models for simulation of pipeline filling transients

    New search for: Wang, Ling
    New search for: Wang, Fujun
    New search for: Lei, Xiaohui

    The assumption of steady friction model is usually adopted for modelling of pipeline filling. To investigate the effect of different friction models on filling transients, the steady, quasi-steady and unsteady friction models are introduced when the filling processes are simulated in a reservoir-valve-pipeline system. The relevance of three friction models during pipeline filling is studied under different driving heads, valve opening times and pipe sizes. The numerical explorations show that the discrepancies in filling results between the quasi-steady friction model and the unsteady friction model are negligible but the discrepancies between the quasi-steady (or unsteady) friction model and steady friction model increase with the decrease in driving head and the increase in valve opening time in a small scale pipeline. Moreover, the importance of friction models would not be obvious when the pipe size increases gradually. This implies that one can use almost any reasonable friction model during rapid filling in a large scale pipeline.

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    Investigation on friction models for simulation of pipeline filling transients

    New search for: Wang, Ling
    New search for: Wang, Fujun
    New search for: Lei, Xiaohui

    The assumption of steady friction model is usually adopted for modelling of pipeline filling. To investigate the effect of different friction models on filling transients, the steady, quasi-steady and unsteady friction models are introduced when the filling processes are simulated in a reservoir-valve-pipeline system. The relevance of three friction models during pipeline filling is studied under different driving heads, valve opening times and pipe sizes. The numerical explorations show that the discrepancies in filling results between the quasi-steady friction model and the unsteady friction model are negligible but the discrepancies between the quasi-steady (or unsteady) friction model and steady friction model increase with the decrease in driving head and the increase in valve opening time in a small scale pipeline. Moreover, the importance of friction models would not be obvious when the pipe size increases gradually. This implies that one can use almost any reasonable friction model during rapid filling in a large scale pipeline.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Investigation on friction models for simulation of pipeline filling transients

    New search for: Wang, Ling
    New search for: Wang, Fujun
    New search for: Lei, Xiaohui

    The assumption of steady friction model is usually adopted for modelling of pipeline filling. To investigate the effect of different friction models on filling transients, the steady, quasi-steady and unsteady friction models are introduced when the filling processes are simulated in a reservoir-valve-pipeline system. The relevance of three friction models during pipeline filling is studied under different driving heads, valve opening times and pipe sizes. The numerical explorations show that the discrepancies in filling results between the quasi-steady friction model and the unsteady friction model are negligible but the discrepancies between the quasi-steady (or unsteady) friction model and steady friction model increase with the decrease in driving head and the increase in valve opening time in a small scale pipeline. Moreover, the importance of friction models would not be obvious when the pipe size increases gradually. This implies that one can use almost any reasonable friction model during rapid filling in a large scale pipeline.

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    Title:

    Investigation on friction models for simulation of pipeline filling transients

    Contributors:

    Wang, Ling (author) / Wang, Fujun (author) / Lei, Xiaohui (author)

    Published in:

    Journal of Hydraulic Research ; 56 ; 888-895

    Publication date:

    2018-11-02

    Size:

    8 pages

    ISSN:

    0022-1686 , 1814-2079

    DOI:

    https://doi.org/10.1080/00221686.2018.1434693

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Filling process , friction model , hydraulic transient , interface tracking method , pipelines

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