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A platform for research: civil engineering, architecture and urbanism
Mitigation systems for the uplift of buried pipelines in liquefiable soils under repeated shaking through model tests
https://orcid.org/0000-0003-4655-5805
https://orcid.org/0000-0001-6160-5685
https://orcid.org/0000-0002-7648-3112
https://orcid.org/0000-0002-7989-9076
Abstract The effectiveness of remedial measures for the stability of onshore buried pipelines against the uplift mechanism induced by soil liquefaction, in the event of an earthquake, is investigated through 1-g shaking table tests. This study aims at proposing mitigation solutions that may be an alternative to the already existing and currently adopted systems, accounting for a set of requirements that cannot be omitted in the context of long tracks and variable soil conditions, looking at the cost-effectiveness too. In this paper, the performance of three systems is described, which consist of a possible arrangement of drainpipes in a typical pipe trench, a gravel bag placed above the pipeline and possibly connected to each other, or geogrids installed horizontally in the soil deposit above the pipe. The working principle of these systems is to contrast the development of the mechanism responsible for the uplift of the embedded pipe and their performance is verified under repeated shaking, thus accounting for the multiple earthquakes that may occur in the time span of the pipe design life. Results of the model tests show that both gravel bag and geogrids performed well and could be employed as a remedial against uplift in the industry.
Highlights 1-g shaking table tests on buried pipelines with mitigation systems against liquefaction-induced uplift are presented. Alternative solutions to the systems adopted in the current practice are investigated. The effectiveness of the mitigation systems is verified under repeated shaking through mutual comparison. The pipeline uplift for following shakings with different mitigation systems is measured. The working principle of the proposed solutions with benefits and limitations are discussed as preliminary assessment.
Mitigation systems for the uplift of buried pipelines in liquefiable soils under repeated shaking through model tests
https://orcid.org/0000-0003-4655-5805
https://orcid.org/0000-0001-6160-5685
https://orcid.org/0000-0002-7648-3112
https://orcid.org/0000-0002-7989-9076
Abstract The effectiveness of remedial measures for the stability of onshore buried pipelines against the uplift mechanism induced by soil liquefaction, in the event of an earthquake, is investigated through 1-g shaking table tests. This study aims at proposing mitigation solutions that may be an alternative to the already existing and currently adopted systems, accounting for a set of requirements that cannot be omitted in the context of long tracks and variable soil conditions, looking at the cost-effectiveness too. In this paper, the performance of three systems is described, which consist of a possible arrangement of drainpipes in a typical pipe trench, a gravel bag placed above the pipeline and possibly connected to each other, or geogrids installed horizontally in the soil deposit above the pipe. The working principle of these systems is to contrast the development of the mechanism responsible for the uplift of the embedded pipe and their performance is verified under repeated shaking, thus accounting for the multiple earthquakes that may occur in the time span of the pipe design life. Results of the model tests show that both gravel bag and geogrids performed well and could be employed as a remedial against uplift in the industry.
Highlights 1-g shaking table tests on buried pipelines with mitigation systems against liquefaction-induced uplift are presented. Alternative solutions to the systems adopted in the current practice are investigated. The effectiveness of the mitigation systems is verified under repeated shaking through mutual comparison. The pipeline uplift for following shakings with different mitigation systems is measured. The working principle of the proposed solutions with benefits and limitations are discussed as preliminary assessment.
Mitigation systems for the uplift of buried pipelines in liquefiable soils under repeated shaking through model tests
https://orcid.org/0000-0003-4655-5805
https://orcid.org/0000-0001-6160-5685
https://orcid.org/0000-0002-7648-3112
https://orcid.org/0000-0002-7989-9076
Abstract The effectiveness of remedial measures for the stability of onshore buried pipelines against the uplift mechanism induced by soil liquefaction, in the event of an earthquake, is investigated through 1-g shaking table tests. This study aims at proposing mitigation solutions that may be an alternative to the already existing and currently adopted systems, accounting for a set of requirements that cannot be omitted in the context of long tracks and variable soil conditions, looking at the cost-effectiveness too. In this paper, the performance of three systems is described, which consist of a possible arrangement of drainpipes in a typical pipe trench, a gravel bag placed above the pipeline and possibly connected to each other, or geogrids installed horizontally in the soil deposit above the pipe. The working principle of these systems is to contrast the development of the mechanism responsible for the uplift of the embedded pipe and their performance is verified under repeated shaking, thus accounting for the multiple earthquakes that may occur in the time span of the pipe design life. Results of the model tests show that both gravel bag and geogrids performed well and could be employed as a remedial against uplift in the industry.
Highlights 1-g shaking table tests on buried pipelines with mitigation systems against liquefaction-induced uplift are presented. Alternative solutions to the systems adopted in the current practice are investigated. The effectiveness of the mitigation systems is verified under repeated shaking through mutual comparison. The pipeline uplift for following shakings with different mitigation systems is measured. The working principle of the proposed solutions with benefits and limitations are discussed as preliminary assessment.
Mitigation systems for the uplift of buried pipelines in liquefiable soils under repeated shaking through model tests
Castiglia, Massimina (author) / Santucci de Magistris, Filippo (author) / Onori, Filippo (author) / Koseki, Junichi (author)
2021-06-02
Article (Journal)
Electronic Resource
English
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