Grants and Contributions:

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Title:
Response of subsea pipelines to ice-induced geohazards
Agreement Number:
CRDPJ
Agreement Value:
$392,300.00
Agreement Date:
Mar 7, 2018 -
Organization:
Natural Sciences and Engineering Research Council of Canada
Location:
Newfoundland and Labrador, CA
Reference Number:
GC-2017-Q4-01648
Agreement Type:
Grant
Report Type:
Grants and Contributions
Additional Information:

Grant or Award spanning more than one fiscal year (2017-2018 to 2022-2023).

Recipient's Legal Name:
Shiri Ghaleh Jugh, Hodjat (Memorial University of Newfoundland)
Program:
Collaborative Research and Development Grants - Project
Program Purpose:

Subsea pipelines are a key element and component of oil and gas field developments in offshore Newfoundland and other harsh ocean environments. One of the most significant risks to subsea pipelines in cold waters is ice-induced scour in the seabed. Protection such as trenching or burial of the pipeline is the most practical and cost effective solution to avoid direct interaction with an ice gouge. However, estimating the minimum reliable burial depth to obtain a sufficient level of pipeline protection, and using exposed pipelines to eliminate the large subsea trenching costs, are challenging technical problem. The answers rely on a better understanding of complex ice gouging processes and particularly subgouge soil deformation. In the past 20 years, numerous research studies have been conducted to advance the industry's understanding of ice gouging. But there are still many uncertainties in ice gouge problems that were recently identified as knowledge gaps (NRC-PERD x000D
(2014), BSEE-WGK (2015). This research program focuses on addressing key knowledge gaps and improving our understanding of subsea pipeline deformation in harsh ocean environments. The approach of the proposed research program lies in both advanced numerical studies and centrifuge model testing, by targeting the assessment of the pipeline response to large deformation subsea geohazards. The project involves a team of 17 HQP (6 PhD, 4 MEng, 4 BEng, and 3 PDF). The outcomes have direct benefits for the industry partner, Wood Group, and its ability to safely design x000D
offshore pipelines for ice-gouge environments like Newfoundland's Grand Banks. Wood Group will integrate the outcomes into its operations by improving the design and life cycle integrity management of pipelines in ice-gouge environments. The proposed research program is therefore well aligned with the technical challenges and needs faced by Wood Group and others working in this sector of the offshore industry. Through this research program, our team and industry partner x000D
will be able to implement and apply the results in engineering software tools used to analyze and design offshore pipelines for ice-gouge environments in Newfoundland and elsewhere.x000D