Multi-scale Flow and Transport Dynamics in Porous Media

Explore multi-scale flow and transport dynamics in porous media through this 25-minute conference talk by Dr. Senyou An from PoreLab. Delve into the predictive capabilities of processes such as multi-phase flow, fluid-solid interaction, reactive transport, and non-Newtonian fluid flow in porous materials. Gain insights into computational and experimental approaches addressing subsurface processes like enhanced oil recovery, geological CO2 storage, and contaminant hydrogeology. Discover advanced algorithms developed to understand complex phenomena in porous media, covering topics ranging from image enhancement and network generation to temperature-dependent rheology and biomedical applications. Learn about the effects of pore-size correlation on solute transport, non-uniqueness of hydrodynamic dispersion, and the dynamics of hydrate topology during dissociation.

Intro
Image Enhancement based on FastGAN and CycleGAN
Network generation and extraction
Multi-scale network generation
Representative Element Volume (REV) validation
Transition from viscous fingering to capillary fingering
Effects of the Pore-Size Correlation on Solute Transport
Non-uniqueness of hydrodynamic dispersion
Temperature-dependent rheology
Heat transfer in non-Newtonian fluid via porous media
Pore 2 core linkage for CCS
X-ray image processing, upscaling
Fitting & Comparison between experiment & simulation
Dissolution of rock during CO,-saturated brine injection
Effect of clay-layered rock surface on low salinity water flooding
Stability and performance of emulsion in bulk-scale and pore-scale
Dynamic hydrate topology and flow properties during dissociation
Digital Samples with Different Hydrate Occurrence Pattern
Biomedical application: Level-set image segmentation
Flow and shear stress in choroid capillary
Multi-scale flow and transport dynamics in porous media