Copyright © (2008) by the Society of Exploration Geophysicists All rights reserved. Heavy oils are defined as having high densities and extremely high viscosities. Due to their viscoelastic behavior the traditional rock physics based on Gassmann theory becomes inapplicable. In this paper, we use effective-medium approach known as coherent potential approximation or CPA as an alternative fluid substitution scheme for rocks saturated with viscoelastic fluids. Such rocks are modelled as solids with elliptical fluid inclusions when fluid concentration is small and as suspensions of solid particles in the fluid when the solid concentration is small. This approach is consistent with concepts of percolation and critical porosity, and allows one to...
A patchy saturated two-layered porous rock, with each layer filled with a different fluid, is examin...
A number of environmental and petroleum engineering applications involve the coexistence of three no...
The traditional method of fluid substitution requires the rock to be microhomogeneous with a fully c...
Heavy oils are defined as having high densities and extremely high viscosities. Due to their viscoel...
Heavy oils have high densities and extremely high viscosities, and they exhibit viscoelastic behavio...
Although properties of bulk heavy oil can be approximated by an appropriate viscoelastic model, only...
Rock physics is an essential link connecting seismic data to the properties of rocks and fluids in t...
We develop a new model for elastic properties of rocks saturated with heavy oil. The heavy oil is re...
Heavy oils exhibit viscoelastic behaviour which is strongly frequency- and temperature- dependent. D...
© 2016. Estimating the impact of solid pore fill on effective elastic properties of rocks is importa...
Rock-physics models are often needed to interpret fluid signatures from subsurface seismic data. Ove...
International audience[1] In porous rocks saturated in patches by two immiscible fluids, seismic com...
Quantifying the effects of pore-filling materials on elastic properties of porous rocks is of consid...
The traditional method of fluid substitution in porous rock requires the total porosity and the elas...
Solid substitution is important for characterisation of rocks saturated with heavy oil or bitumen, r...
A patchy saturated two-layered porous rock, with each layer filled with a different fluid, is examin...
A number of environmental and petroleum engineering applications involve the coexistence of three no...
The traditional method of fluid substitution requires the rock to be microhomogeneous with a fully c...
Heavy oils are defined as having high densities and extremely high viscosities. Due to their viscoel...
Heavy oils have high densities and extremely high viscosities, and they exhibit viscoelastic behavio...
Although properties of bulk heavy oil can be approximated by an appropriate viscoelastic model, only...
Rock physics is an essential link connecting seismic data to the properties of rocks and fluids in t...
We develop a new model for elastic properties of rocks saturated with heavy oil. The heavy oil is re...
Heavy oils exhibit viscoelastic behaviour which is strongly frequency- and temperature- dependent. D...
© 2016. Estimating the impact of solid pore fill on effective elastic properties of rocks is importa...
Rock-physics models are often needed to interpret fluid signatures from subsurface seismic data. Ove...
International audience[1] In porous rocks saturated in patches by two immiscible fluids, seismic com...
Quantifying the effects of pore-filling materials on elastic properties of porous rocks is of consid...
The traditional method of fluid substitution in porous rock requires the total porosity and the elas...
Solid substitution is important for characterisation of rocks saturated with heavy oil or bitumen, r...
A patchy saturated two-layered porous rock, with each layer filled with a different fluid, is examin...
A number of environmental and petroleum engineering applications involve the coexistence of three no...
The traditional method of fluid substitution requires the rock to be microhomogeneous with a fully c...