This paper addresses the selection of an appropriate consolidation coefficient for the analysis of drainage beneath foundations and pipelines in offshore geotechnical design. An emerging trend in the design of subsea infrastructure is the consideration of ‘whole life’ effects – namely the changes in soil properties and geotechnical capacity over the operating life. Seabed pipelines that undergo repeated thermal expansion and contraction cause shearing and consolidation in the underlying soil, leading to significant changes in the available seabed friction. Also, foundations that are either fixed or designed to slide on the seabed, are subjected to intermittent loads interspersed with periods of consolidation. These also cause a change in se...
The build-up of friction on seabed pipelines is an important design consideration, affecting their s...
The ultimate capacity of submarine pipelines under combined vertical and horizontal loading, so-call...
This paper presents a summary of the geotechnical engineering properties of low to medium overconsol...
The build-up of pipe-soil resistance that can be mobilized on a seabed pipeline, particularly in the...
When a pipeline is laid on a soft clay seabed, excess pore pressure is generated. During the subsequ...
The geotechnical analysis performed for subsea pipeline design involves challenges that are not comm...
Current design practice for pipe-seabed interaction in soft soils is generally based on the assumpti...
The consolidation response of partially embedded seabed pipelines has been investigated in the past ...
Tolerable mobility of subsea foundations and pipelines supporting offshore oil and gas developments ...
Axial pipe-seabed resistance is a key input parameter in the design of HTHP subsea pipelines. This p...
The paper reviews recent advances in the understanding of pipe-soil interaction, and provides a upda...
Steel catenary risers (SCRs) are an efficient solution to transfer hydrocarbons from deep-water seab...
Finite-element analyses of the axial sliding resistance of a seabed pipeline embedded in soft normal...
Within the past few decades, increased population and infrastructure development have necessitated p...
Solutions for lateral breakout and axial response of submarine pipelines are well established if the...
The build-up of friction on seabed pipelines is an important design consideration, affecting their s...
The ultimate capacity of submarine pipelines under combined vertical and horizontal loading, so-call...
This paper presents a summary of the geotechnical engineering properties of low to medium overconsol...
The build-up of pipe-soil resistance that can be mobilized on a seabed pipeline, particularly in the...
When a pipeline is laid on a soft clay seabed, excess pore pressure is generated. During the subsequ...
The geotechnical analysis performed for subsea pipeline design involves challenges that are not comm...
Current design practice for pipe-seabed interaction in soft soils is generally based on the assumpti...
The consolidation response of partially embedded seabed pipelines has been investigated in the past ...
Tolerable mobility of subsea foundations and pipelines supporting offshore oil and gas developments ...
Axial pipe-seabed resistance is a key input parameter in the design of HTHP subsea pipelines. This p...
The paper reviews recent advances in the understanding of pipe-soil interaction, and provides a upda...
Steel catenary risers (SCRs) are an efficient solution to transfer hydrocarbons from deep-water seab...
Finite-element analyses of the axial sliding resistance of a seabed pipeline embedded in soft normal...
Within the past few decades, increased population and infrastructure development have necessitated p...
Solutions for lateral breakout and axial response of submarine pipelines are well established if the...
The build-up of friction on seabed pipelines is an important design consideration, affecting their s...
The ultimate capacity of submarine pipelines under combined vertical and horizontal loading, so-call...
This paper presents a summary of the geotechnical engineering properties of low to medium overconsol...