In this work a problem that describes a reactive transport inside a random porous medium is considered. The main driving force of the transport is the processes of convection and diffusion, which are influencing the reaction. This type of simulations has practical applications in oil recovery, soil pollution and remediation, as well as in several industrial and biomedical processes.
A...
Global climate change has intensified extreme meteorological conditions, increasing reliance on groundwater resources, which are less vulnerable to surface water variability, in many regions. Accurately quantifying the uncertainty in hydraulic head due to the heterogeneous hydraulic conductivity of aquifers is crucial for optimizing emergency well placement and determining drilling depth,...
In the quest to mitigate climate change, researchers have explored the geological storage of CO₂ in depleted oil and gas reservoirs, as well as deep saline aquifers. However, injecting CO₂ into these formations results in pressure buildup, which can lead to seismic activity, e.g., due to fault reactivation. Consequently, quantifying the risks associated with induced seismicity has become...
There is an immediate need for carbon sequestration coupled with a need for low-cost, continuous monitoring, and real-time awareness of the saturation plume to prevent leakage. We seek to maximize plume prediction accuracy with economical and reliable monitoring strategies. Multilevel pressure monitoring is a monitoring scheme shown to be effective in determining the height and footprint of a...
