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    Seismic Analysis of Connections of Buried Continuous Pipelines

    New search for: Wei Liu
    New search for: Chunjie Huang
    New search for: Yunchang Wang
    New search for: Peixin Shi

    Buried pipelines serve as a critical component of lifeline systems, such as water and gas supply. They are interconnected to form a network to transport utilities. The connections change the geometry and stiffness of pipelines and impact the seismic response of the pipelines. This paper investigates the influence of connections on the seismic response of buried continuous steel trunk lines. A finite element model is introduced for analyzing the seismic response of buried pipeline networks. The seismic response of continuous steel pipelines with different connections, including cruciform and T-, K-, L-, and Y-shaped, is analyzed. The impact of site class, pipe diameter, branch angle, and angle of wave incidence on the response of pipe connections is explored. An influence coefficient defined to characterize the strain amplification at the connections is proposed for different forms of connections. Engineering measures to reduce the strain amplification at connections are suggested.

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    Seismic Analysis of Connections of Buried Continuous Pipelines

    New search for: Wei Liu
    New search for: Chunjie Huang
    New search for: Yunchang Wang
    New search for: Peixin Shi

    Buried pipelines serve as a critical component of lifeline systems, such as water and gas supply. They are interconnected to form a network to transport utilities. The connections change the geometry and stiffness of pipelines and impact the seismic response of the pipelines. This paper investigates the influence of connections on the seismic response of buried continuous steel trunk lines. A finite element model is introduced for analyzing the seismic response of buried pipeline networks. The seismic response of continuous steel pipelines with different connections, including cruciform and T-, K-, L-, and Y-shaped, is analyzed. The impact of site class, pipe diameter, branch angle, and angle of wave incidence on the response of pipe connections is explored. An influence coefficient defined to characterize the strain amplification at the connections is proposed for different forms of connections. Engineering measures to reduce the strain amplification at connections are suggested.

    Access

    Download

    Seismic Analysis of Connections of Buried Continuous Pipelines

    New search for: Wei Liu
    New search for: Chunjie Huang
    New search for: Yunchang Wang
    New search for: Peixin Shi

    Buried pipelines serve as a critical component of lifeline systems, such as water and gas supply. They are interconnected to form a network to transport utilities. The connections change the geometry and stiffness of pipelines and impact the seismic response of the pipelines. This paper investigates the influence of connections on the seismic response of buried continuous steel trunk lines. A finite element model is introduced for analyzing the seismic response of buried pipeline networks. The seismic response of continuous steel pipelines with different connections, including cruciform and T-, K-, L-, and Y-shaped, is analyzed. The impact of site class, pipe diameter, branch angle, and angle of wave incidence on the response of pipe connections is explored. An influence coefficient defined to characterize the strain amplification at the connections is proposed for different forms of connections. Engineering measures to reduce the strain amplification at connections are suggested.

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    Download

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    Document information
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    Title:

    Seismic Analysis of Connections of Buried Continuous Pipelines

    Contributors:

    Wei Liu (author) / Chunjie Huang (author) / Yunchang Wang (author) / Peixin Shi (author)

    Published in:

    Advances in Civil Engineering, Vol 2020 (2020)

    Publication date:

    2020

    ISSN:

    1687-8086 , 1687-8094

    DOI:

    https://doi.org/10.1155/2020/8839380

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    Engineering (General). Civil engineering (General) , TA1-2040

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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