Predicting Sedimentation around Subsea Pipelines and Cables in Time Varying Current Flows
ID:45 View Protection:ATTENDEE Updated Time:2025-11-03 17:12:23 Hits:144 Oral Presentation

Start Time:2025-11-05 17:50(Asia/Shanghai)

Duration:20min

Session:S4 Session 4: Scour & Erosion Countermeasures and Mitigation Measures » S4-1Session 4(5th)

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Abstract
Survey observations of untrenched pipelines and cables in areas with mobile seabed sometimes show a significant buildup of sediment (or sedimentation) either side of the pipe/cable, without any signs of pipeline or cable lowering. Whilst earlier research has explored these observations and recreated similar profiles in laboratory experiments, limited work has explored sedimentation in time-varying flow conditions. Motivated by this gap in knowledge, this paper presents results from a series of experiments conducted using the Large O-Tube testing facility at The University of Western Australia to investigate sedimentation-induced changes to pipeline/cable embedment in time-varying flows. Initially, a series of experiments were conducted with bi-directional currents having a constant flow intensity to measure changes in embedment due to sedimentation around a pipeline/cable. The resulting time series of embedment for each flow intensity was then parameterised in terms of an equilibrium embedment depth and a time scale, indicating that the equilibrium depth is not sensitive to flow intensity, whilst the time scale reduces with increased flow intensity. Next, a model was developed to predict sedimentation-induced changes to local embedment using a time-stepping scheme similar in concept to the ‘STEP’ model introduced for scour prediction. To validate this model, an additional experiment was undertaken in bidirectional flow with a time-varying flow intensity. Comparisons of the prediction with this additional experiment agree reasonably well, indicating that the model may be applied to predict sedimentation build-up in time varying currents.
Keywords
sedimentation,laboratory experiment,pipeline/cable,embedment,time-varying flows,STEP model
Speaker
Luh Putri Adnyani
Kalimantan Institute of Technology, Kampus ITK Karang Joang

Submission Author
Luh Putri Adnyani Kalimantan Institute of Technology, Kampus ITK Karang Joang
Scott Draper The University of Western Australia
Hongwei An The University of Western Australia
Zhechen Hou The University of Western Australia
Liang Cheng The University of Western Australia
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  • Conference Date

    Nov 04

    2025

    to

    Nov 07

    2025

  • Oct 20 2025

    Abstract Submission Deadline

  • Oct 20 2025

    Draft paper submission deadline

  • Oct 30 2025

    Draft Paper Acceptance Notification

  • Nov 07 2025

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Chongqing Jiaotong University
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Hehai University
Chongqing Jiaotong University
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