Effect of permeants on fracture permeability in granite under hydrothermal conditions

“…Figure shows the contact angle of the brine phase on the rock surface, and the final imbibition mass of brine/dodecane in the rock increases with the increase of the treatment pressure on the rock (CO 2 -brine immersion stage). The water wetness of shale weakens because, at higher pressure, CO 2 is more soluble in water; more CO 2 dissolved in water will reduce the PH value of the solution, and the increase in acidity will dissolve minerals such as carbonate and weaken the water wetness of rock samples . The contact angle of the brine phase on a rock surface focuses on the wettability (face) of a specific surface.…”

“…The water wetness of shale weakens because, at higher pressure, CO 2 is more soluble in water; more CO 2 dissolved in water will reduce the PH value of the solution, and the increase in acidity will dissolve minerals such as carbonate and weaken the water wetness of rock samples. 45 The contact angle of the brine phase on a rock surface focuses on the wettability (face) of a specific surface. It is influenced by factors such as mineral composition and intermolecular forces.…”

Experimental Investigation on the Spontaneous Imbibition Characteristics of Shale under the Combined Action of CO₂ and Water

“…Figure shows the contact angle of the brine phase on the rock surface, and the final imbibition mass of brine/dodecane in the rock increases with the increase of the treatment pressure on the rock (CO 2 -brine immersion stage). The water wetness of shale weakens because, at higher pressure, CO 2 is more soluble in water; more CO 2 dissolved in water will reduce the PH value of the solution, and the increase in acidity will dissolve minerals such as carbonate and weaken the water wetness of rock samples . The contact angle of the brine phase on a rock surface focuses on the wettability (face) of a specific surface.…”

“…The water wetness of shale weakens because, at higher pressure, CO 2 is more soluble in water; more CO 2 dissolved in water will reduce the PH value of the solution, and the increase in acidity will dissolve minerals such as carbonate and weaken the water wetness of rock samples. 45 The contact angle of the brine phase on a rock surface focuses on the wettability (face) of a specific surface. It is influenced by factors such as mineral composition and intermolecular forces.…”

Experimental Investigation on the Spontaneous Imbibition Characteristics of Shale under the Combined Action of CO₂ and Water

“…[38][39][40] Roughness has a significant impact on fracture aperture, which in turn affects fracture permeability. 41,42 Extensive researches have been carried out to analyze the heterogeneity of aperture on fracture surface, aiming to enhance understanding of the impact of surface roughness on flow. [41][42][43][44] However, the majority of these studies have focused on 3D single-fractured media or 2D complex system, and some have neglected the flux interaction between 3D fractures-matrix.…”

“…41,42 Extensive researches have been carried out to analyze the heterogeneity of aperture on fracture surface, aiming to enhance understanding of the impact of surface roughness on flow. [41][42][43][44] However, the majority of these studies have focused on 3D single-fractured media or 2D complex system, and some have neglected the flux interaction between 3D fractures-matrix. 41,44 Consequently, exploring the role of complex structures and varying aperture in flow and transport can provide valuable insights into hydraulic property of fractured media.…”

“…The joint roughness coefficient (JRC) is a widely used measure of the roughness of fracture walls 38‐40 . Roughness has a significant impact on fracture aperture, which in turn affects fracture permeability 41,42 . Extensive researches have been carried out to analyze the heterogeneity of aperture on fracture surface, aiming to enhance understanding of the impact of surface roughness on flow 41‐44 .…”

Fluid flow and mass transport in fractured media with curved fractures and varying apertures: A 3D modeling approach

Shear-induced permeability evolution of natural fractures in granite: Implications for stimulation of EGS reservoirs