The demand for clean and sustainable energy has driven the need for efficient storage. Hydrogen being a carbon–neutral energy carrier, offers a versatile solution. However …
A deep-learning-based surrogate model capable of predicting flow and geomechanical responses in CO 2 storage operations is presented and applied. The 3D recurrent RU-Net …
Numerical simulation of fluid flow, transport, and trapping mechanisms have been used to optimize CO 2 storage in geologic formations by improving trapping efficiency through …
M Tran, B Jha - Water Resources Research, 2021 - Wiley Online Library
The coupling between solute transport and rock's geomechanical processes, for example, flow‐induced fracture activation, has emerged as an important hydrogeological challenge …
Natural gas is an indispensable resource not evenly distributed in the world. The gas supply chain is characterized by large imbalances between supply and demand, where the …
S Meguerdijian, B Jha - International Journal for Numerical and …, 2021 - Wiley Online Library
Subsurface leakage of fluids, such as CO 2, along faults is a key quantity to estimate when modeling underground fluid storage. Using our coupled multiphase flow‐geomechanics …
Recent instrument developments have made it possible to measure the strain tensor caused by injecting or pumping fluid from aquifers or reservoirs, but the full value of these data is …
L Shi, B Zhang, L Wang, H Wang, H Zhang - Engineering Geology, 2018 - Elsevier
This research has analysed the entire construction data monitored from the largest constructed underground water-sealed oil storage cavern in China using time series …
S Dana, X Zhao, B Jha - Journal of Computational Physics, 2022 - Elsevier
We present a simulation framework for fast monitoring of fault stability and ground deformation in multiphase geomechanics and demonstrate its efficacy for a joint CO 2 …