Add to ORKGA modelling concept for studying the resulting bubble plume from a subsea gas release is presented. Simulation results show good consistency with available experimental data. The modelling concept is applied to assess the importance of different physics and mechanisms assumed to influence the behaviour of the bubble plume. It is shown that buoyancy, drag, turbulent dispersion and gas dissolution are the governing mechanisms, and that gas dissolution is important for deep releases
The global demand for hydrocarbons is high and is also believed to be high in the future. Much of to...
AbstractA numerical model of an individual CO2 bubble dissolution and ascent in shallow seawater was...
Oil and gas from a subsea blowout shatter into droplets and bubbles that rise through the water colu...
A modelling concept for studying the resulting bubble plume from a subsea gas release is presented. ...
A subsea release of gas poses a risk to humans and assets at the surface. Assessing this risk requir...
The worlds demand for oil and gas is constantly increasing, and this has lead the exploration into d...
The objective of this research is to develop a mathematical model to describe the dynamic and thermo...
A subsea gas release is a concern for both safety and environment. This can be assessed by mathemati...
PresentationA Computational Fluid Dynamics (CFD) model was developed to describe the behavior of a s...
gas transfer; wave breaking, air-sea interaction; sea surfaceInternational audienceThe air–water exc...
ABSTRACT: The rise and dissolutions of CO2 or CH4 particles (bubbles or drops) from deep ocean is im...
The air–water exchange of gases can be substantially enhanced by wave breaking and specifically by b...
Laboratory results have demonstrated the importance of bubble plumes to air-water gas transfer (Ashe...
A two-fluid, small scale numerical ocean model was developed to simulate plume dynamics and increas...
Although the repetitive subsea gas releases incidents occurring in the offshore oil and gas industry...
The global demand for hydrocarbons is high and is also believed to be high in the future. Much of to...
AbstractA numerical model of an individual CO2 bubble dissolution and ascent in shallow seawater was...
Oil and gas from a subsea blowout shatter into droplets and bubbles that rise through the water colu...
A modelling concept for studying the resulting bubble plume from a subsea gas release is presented. ...
A subsea release of gas poses a risk to humans and assets at the surface. Assessing this risk requir...
The worlds demand for oil and gas is constantly increasing, and this has lead the exploration into d...
The objective of this research is to develop a mathematical model to describe the dynamic and thermo...
A subsea gas release is a concern for both safety and environment. This can be assessed by mathemati...
PresentationA Computational Fluid Dynamics (CFD) model was developed to describe the behavior of a s...
gas transfer; wave breaking, air-sea interaction; sea surfaceInternational audienceThe air–water exc...
ABSTRACT: The rise and dissolutions of CO2 or CH4 particles (bubbles or drops) from deep ocean is im...
The air–water exchange of gases can be substantially enhanced by wave breaking and specifically by b...
Laboratory results have demonstrated the importance of bubble plumes to air-water gas transfer (Ashe...
A two-fluid, small scale numerical ocean model was developed to simulate plume dynamics and increas...
Although the repetitive subsea gas releases incidents occurring in the offshore oil and gas industry...
The global demand for hydrocarbons is high and is also believed to be high in the future. Much of to...
AbstractA numerical model of an individual CO2 bubble dissolution and ascent in shallow seawater was...
Oil and gas from a subsea blowout shatter into droplets and bubbles that rise through the water colu...