Stabilized material point methods for coupled large deformation and fluid flow in porous materials
The material point method (MPM) has been increasingly used for the simulation of large-
deformation processes in fluid-infiltrated porous materials. For undrained poromechanical …
deformation processes in fluid-infiltrated porous materials. For undrained poromechanical …
Phase field model for simulating hydraulic fracture propagation and oil–water two-phase flow in reservoir
D Zhang, L Yi, Z Yang, X Li, F Zhang - Computer Methods in Applied …, 2023 - Elsevier
A novel phase field model of two-phase fluid flow based on the interaction between solid
and pore fluids for modelling hydraulic fracture propagation in poro-elastic media is …
and pore fluids for modelling hydraulic fracture propagation in poro-elastic media is …
The modeling of fault activation, slip, and induced seismicity for geological CO2 storage at a pilot-scale site in the Janggi Basin, South Korea
We investigate the effects of possible fault activation and slip during geological CO 2 storage
operations numerically. To this end we develop a numerical simulator by coupling a …
operations numerically. To this end we develop a numerical simulator by coupling a …
A large deformation multiphase continuum mechanics model for shock loading of soft porous materials
ZT Irwin, JD Clayton… - International Journal for …, 2024 - Wiley Online Library
A large deformation, coupled finite‐element (FE) model is developed to simulate the
multiphase response of soft porous materials subjected to high strain‐rate loading. The …
multiphase response of soft porous materials subjected to high strain‐rate loading. The …
Enriched Galerkin finite elements for coupled poromechanics with local mass conservation
Robust and efficient discretization methods for coupled poromechanical problems are
critical to address a wide range of problems related to civil infrastructure, energy resources …
critical to address a wide range of problems related to civil infrastructure, energy resources …
[LIBRO][B] Multiscale Model Reduction
The mathematization of all sciences, the fading of traditional scientific boundaries, the
impact of computer technology, the growing importance of computer modeling and the …
impact of computer technology, the growing importance of computer modeling and the …
Multiple porosity model of a heterogeneous layered gas hydrate deposit in Ulleung Basin, East Sea, Korea: A study on depressurization strategies, reservoir …
Precise simulation of the geomechanical response is crucial for the gas hydrate production
such as from the deposits in Ulleung Basin, East Sea, Korea, which exhibit severe vertical …
such as from the deposits in Ulleung Basin, East Sea, Korea, which exhibit severe vertical …
Constrained energy minimization based upscaling for coupled flow and mechanics
In this paper, our aim is to present (1) an embedded fracture model (EFM) for coupled flow
and mechanics problem based on the dual continuum approach on the fine grid and (2) an …
and mechanics problem based on the dual continuum approach on the fine grid and (2) an …
The gradient flow structures of thermo-poro-visco-elastic processes in porous media
In this paper, the inherent gradient flow structures of thermo-poro-visco-elastic processes in
porous media are examined for the first time. In the first part, a modelling framework is …
porous media are examined for the first time. In the first part, a modelling framework is …
A unified non-local damage model for hydraulic fracture in porous media
H Zhang, ME Mobasher, Z Shen, H Waisman - Acta Geotechnica, 2023 - Springer
We present a unified non-local damage model for modeling hydraulic fracture processes in
porous media, in which damage evolves as a function of fluid pressure. This setup allows for …
porous media, in which damage evolves as a function of fluid pressure. This setup allows for …