Subsea pipelines buried in the seabed may undergo large lateral displacement under environmental, operational, and accidental loads at different interaction rates and hence different drainage conditions. The undrained shear strength is commonly used in practice to assess the pipe-soil interaction assuming a sufficiently high displacement rate. This approach neglects consolidation effects and the rate-dependent response of the soil and may significantly underestimates the lateral resistance for a pipeline moving slowly relative to the ground. In this study, a coupled large deformation finite element (LDFE) framework is developed via a remeshing and interpolation technique with small strain (RITSS). A Modified Cam-Clay (MCC) model with effici...
The assessment of the potentially destructive impacts of subaqueous landslides on offshore pipelines...
Modern countries utilise buried pipelines for the long-distance transportation of water, oil, and ga...
Offshore on-bottom pipelines are subjected to cycles of thermal and pressure-induced axial expansion...
The soil resistance during large lateral movements of pipelines across the seabed is an important in...
Seabed pipelines must be designed to accommodate thermal expansion - which is commonly achieved thro...
Large deformation finite element analysis using the commercial software ABAQUS has been performed to...
The consolidation response of partially embedded seabed pipelines has been investigated in the past ...
Offshore on-bottom pipelines are vulnerable to lateral buckling caused by thermal- and pressure-indu...
Diverse vertical embedment response is observed for partially embedded pipelines when experimentally...
Offshore pipelines in deep water are generally laid directly on the seabed, without any additional s...
Current design practice for pipe-seabed interaction in soft soils is generally based on the assumpti...
A large deformation finite element analysis method has been developed based on frequent remeshing an...
As the development of offshore hydrocarbons moves into deeper water, pipelines form an increasingly ...
To relieve the axial stress induce rature high-pressure pipelines in deepwater, current design metho...
New oil and gas developments in remote offshore locations require the construction of long seabed pi...
The assessment of the potentially destructive impacts of subaqueous landslides on offshore pipelines...
Modern countries utilise buried pipelines for the long-distance transportation of water, oil, and ga...
Offshore on-bottom pipelines are subjected to cycles of thermal and pressure-induced axial expansion...
The soil resistance during large lateral movements of pipelines across the seabed is an important in...
Seabed pipelines must be designed to accommodate thermal expansion - which is commonly achieved thro...
Large deformation finite element analysis using the commercial software ABAQUS has been performed to...
The consolidation response of partially embedded seabed pipelines has been investigated in the past ...
Offshore on-bottom pipelines are vulnerable to lateral buckling caused by thermal- and pressure-indu...
Diverse vertical embedment response is observed for partially embedded pipelines when experimentally...
Offshore pipelines in deep water are generally laid directly on the seabed, without any additional s...
Current design practice for pipe-seabed interaction in soft soils is generally based on the assumpti...
A large deformation finite element analysis method has been developed based on frequent remeshing an...
As the development of offshore hydrocarbons moves into deeper water, pipelines form an increasingly ...
To relieve the axial stress induce rature high-pressure pipelines in deepwater, current design metho...
New oil and gas developments in remote offshore locations require the construction of long seabed pi...
The assessment of the potentially destructive impacts of subaqueous landslides on offshore pipelines...
Modern countries utilise buried pipelines for the long-distance transportation of water, oil, and ga...
Offshore on-bottom pipelines are subjected to cycles of thermal and pressure-induced axial expansion...