Impact of Regional Pressure Dissipation on Carbon Capture and Storage Projects: A Comprehensive Review
Carbon capture and storage (CCS) is a critical technology for mitigating greenhouse gas
emissions and combating climate change. CCS involves capturing CO2 emissions from …
emissions and combating climate change. CCS involves capturing CO2 emissions from …
Coupled thermo-hydro-mechanical-chemical modeling on acid fracturing in carbonatite geothermal reservoirs containing a heterogeneous fracture
Acid fracturing and hydraulic fracturing are two useful methods to improve productivity of
geothermal wells. Compared with hydraulic fracturing, it remains challenging to select and …
geothermal wells. Compared with hydraulic fracturing, it remains challenging to select and …
Modeling and simulation of wormhole formation during acidization of fractured carbonate rocks
Acidizing is a commonly used stimulation treatment for carbonate reservoirs, performed by
injecting acid into the near-wellbore rocks to remedy drilling damage, or to create, by …
injecting acid into the near-wellbore rocks to remedy drilling damage, or to create, by …
A new operator-splitting finite element scheme for reactive transport modeling in saturated porous media
The operator splitting approach has been widely accepted since it was introduced as a
means to solve reactive transport problems. The conventional operator-splitting finite …
means to solve reactive transport problems. The conventional operator-splitting finite …
Numerical investigation of carbonate acidizing with gelled acid using a coupled thermal–hydrologic–chemical model
In this work, an experiment-based rheological model that accounts for the influence of
polymer concentration, shear-thinning behavior, and temperature variation on the in-situ …
polymer concentration, shear-thinning behavior, and temperature variation on the in-situ …
Modeling and analysis of the acidizing process in carbonate rocks using a two-phase thermal-hydrologic-chemical coupled model
We present a two-phase thermal-hydrologic-chemical coupled model for simulating the
dissolution process during the acidization of carbonate rocks. In particular, we develop a …
dissolution process during the acidization of carbonate rocks. In particular, we develop a …
Numerical modelling and analysis of reactive flow and wormhole formation in fractured carbonate rocks
Combining the two-scale continuum model and the discrete fracture network model, a
continuum-based model is developed that calculates the reactive flow of acid in carbonate …
continuum-based model is developed that calculates the reactive flow of acid in carbonate …
Improved kinetics for mineral dissolution reactions in pore-scale reactive transport modeling
J Schabernack, C Fischer - Geochimica et Cosmochimica Acta, 2022 - Elsevier
Recent numerical investigations revealed that the heterogeneity of the dissolution rate
observed in numerous experiments cannot be explained by fluid transport effects. This …
observed in numerous experiments cannot be explained by fluid transport effects. This …
Experimental investigation on the seepage property of saturated broken red sandstone of continuous gradation
M Feng, J Wu, D Ma, X Ni, B Yu, Z Chen - Bulletin of Engineering Geology …, 2018 - Springer
The statues of seepage in broken red sandstone may become unsteady due to the effects of
water erosion, so it is important to consider the effect of mass loss on the permeability of …
water erosion, so it is important to consider the effect of mass loss on the permeability of …
3-D modelling and experimental comparison of reactive flow in carbonates under radial flow conditions
We use a two-scale continuum model to simulate reactive flow and wormhole formation in
carbonate rocks under 3-D radial flow conditions. More specifically, we present a new …
carbonate rocks under 3-D radial flow conditions. More specifically, we present a new …