The pressure-driven growth model is considered, describing the motion of a foam front through an oil reservoir during foam improved oil recovery, foam being formed as gas advances into an initially liquid-filled reservoir. In the model, the foam front is represented by a set of so called ‘material points’ that track the advance of gas into the liquid-filled region. According to the model, the shape of the foam front is prone to develop concave sharply-curved concavities, where the orientation of the front changes rapidly over a small spatial distance: these are referred to as 'concave corners'. These concave corners need to be propagated differently from the material points on the foam front itself. Typically the corner must move faster tha...
The pressure-driven growth model has been employed to study a propagating foam front in the foam imp...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
A foam front propagating through an oil reservoir is considered in the context of foam improved oil ...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
The pressure-driven growth model is used to determine the shape of a foam front propagating into an ...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
The pressure-driven growth model has been employed to study a propagating foam front in the foam imp...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
The pressure-driven growth model is considered, describing the motion of a foam front through an oil...
A foam front propagating through an oil reservoir is considered in the context of foam improved oil ...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
The pressure-driven growth model is used to determine the shape of a foam front propagating into an ...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
During improved oil recovery (IOR), gas may be introduced into a porous reservoir filled with surfac...
The pressure-driven growth model has been employed to study a propagating foam front in the foam imp...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...
A model, called pressure-driven growth, is analysed for propagation of a foam front through an oil r...