Add to ORKGThe Subsea pipelines are subjected to high hoop stresses due to the hydrostatic pressure. When the internal pressure of the liquid has a higher value than the external hydrostatic one, there is a balance of the tensile and compressive stresses. However, during the offshore installation, the subsea pipelines are empty and the compression due to the hydrostatic pressure of the sea is predominant. High compressive stresses in FRP pipelines can cause failure or buckling. In the present work, an investigation of the external pressure-induced failure and buckling is carried out. Analytical formulae and results are provided and discussed
During the 1990s the world-wide offshore industry has been increasingly developing oil and gas field...
Offshore pipelines transport hydrocarbons at high operating pressure and temperature (HPHT) conditi...
To keep up with the growing demand for oil and gas, the oil and gas industry ventures into deeper wa...
The Subsea pipelines are subjected to high hoop stresses due to the hydrostatic pressure. When the i...
This study investigates buckling propagation mechanisms of subsea pipe-in-pipe (PIP) systems under h...
Albermani, F ORCiD: 0000-0001-8540-1724Due to high service temperatures and internal pressures in oi...
The lateral and upheaval buckling of subsea pipelines is investigated in this paper. For lateral buc...
Sandwich pipes can be a potentially optimal system for use in deep-water applications. In recent yea...
The pipelines used to transport oil and gas tend to expand due to high temperature and pressure cond...
Oil and gas production in subsea operation continues to the extreme depth. Harsh environment and sev...
Increasing demand for oil and gas recovery from deeper and more hostile waters imposes new demands u...
Submarine pipelines are prone to developing flaws, such as ellipticity and depression during the man...
A subsea pipeline laid onto a flat seabed will buckle laterally from a combination of pressure and t...
The buckling analysis of an offshore pipeline refers to the analysis of temperature-induced uplift a...
This study investigates collapse mechanisms of the inner pipe of a pipe-in-pipe (PIP) system under e...
During the 1990s the world-wide offshore industry has been increasingly developing oil and gas field...
Offshore pipelines transport hydrocarbons at high operating pressure and temperature (HPHT) conditi...
To keep up with the growing demand for oil and gas, the oil and gas industry ventures into deeper wa...
The Subsea pipelines are subjected to high hoop stresses due to the hydrostatic pressure. When the i...
This study investigates buckling propagation mechanisms of subsea pipe-in-pipe (PIP) systems under h...
Albermani, F ORCiD: 0000-0001-8540-1724Due to high service temperatures and internal pressures in oi...
The lateral and upheaval buckling of subsea pipelines is investigated in this paper. For lateral buc...
Sandwich pipes can be a potentially optimal system for use in deep-water applications. In recent yea...
The pipelines used to transport oil and gas tend to expand due to high temperature and pressure cond...
Oil and gas production in subsea operation continues to the extreme depth. Harsh environment and sev...
Increasing demand for oil and gas recovery from deeper and more hostile waters imposes new demands u...
Submarine pipelines are prone to developing flaws, such as ellipticity and depression during the man...
A subsea pipeline laid onto a flat seabed will buckle laterally from a combination of pressure and t...
The buckling analysis of an offshore pipeline refers to the analysis of temperature-induced uplift a...
This study investigates collapse mechanisms of the inner pipe of a pipe-in-pipe (PIP) system under e...
During the 1990s the world-wide offshore industry has been increasingly developing oil and gas field...
Offshore pipelines transport hydrocarbons at high operating pressure and temperature (HPHT) conditi...
To keep up with the growing demand for oil and gas, the oil and gas industry ventures into deeper wa...