A study of body waves in elastic porous media saturated by two immiscible Newtonian fluids is presented. We analytically show the existence of three compressional waves and one rotational wave in an infinite porous medium. The first and second compressional waves are analogous to the fast and slow compressional waves in Blot's theory. The third compressional wave is associated with the pressure difference between the fluid phases and dependent on the slope of capillary pressure-saturation relation. Effect of a second fluid phase on the fast and slow waves is numerically investigated for Massillon sandstone saturated by air and water phases. A peak in the attenuation of the first and second compressional waves is observed at high water satur...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
Numerical results for the dispersion relation of surface wave modes in partially saturated porous me...
Wave propagation in fluid-saturated porous materials presents very particular features like the appe...
A study of body waves in elastic porous media saturated by two immiscible Newtonian fluids is presen...
A study of body waves in fractured porous media saturated by two fluids is presented. We show the ex...
A study of wave propagation in fractured porous media saturated by two immiscible fluids is presente...
A theory of wave propagation in isotropic poroelastic media saturated by two immiscible Newtonian fl...
Summarization: The propagation of plane harmonic body waves in an unbounded, fully saturated, elasti...
Wave propagation in porous media is of interest in various diversified areas of science and engineer...
Wave propagation in saturated porous media is investigated in the framework of two models, a theoret...
The present study investigates novelties brought into the classic Biot's theory of propagation of el...
The propagation of compressional waves in a porous medium is investigated in case the pore liquid co...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
To account for large-volume low-permeability storage porosity and low-volume high-permeability fract...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
Numerical results for the dispersion relation of surface wave modes in partially saturated porous me...
Wave propagation in fluid-saturated porous materials presents very particular features like the appe...
A study of body waves in elastic porous media saturated by two immiscible Newtonian fluids is presen...
A study of body waves in fractured porous media saturated by two fluids is presented. We show the ex...
A study of wave propagation in fractured porous media saturated by two immiscible fluids is presente...
A theory of wave propagation in isotropic poroelastic media saturated by two immiscible Newtonian fl...
Summarization: The propagation of plane harmonic body waves in an unbounded, fully saturated, elasti...
Wave propagation in porous media is of interest in various diversified areas of science and engineer...
Wave propagation in saturated porous media is investigated in the framework of two models, a theoret...
The present study investigates novelties brought into the classic Biot's theory of propagation of el...
The propagation of compressional waves in a porous medium is investigated in case the pore liquid co...
Summarization: A particle velocity‐stress, finite‐difference method is developed for the simulation ...
To account for large-volume low-permeability storage porosity and low-volume high-permeability fract...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
International audienceThis article is the logical continuation of a previous article (O. Coussy and ...
Numerical results for the dispersion relation of surface wave modes in partially saturated porous me...
Wave propagation in fluid-saturated porous materials presents very particular features like the appe...