Add to ORKGThe evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel (drift) is evaluated using numerical modeling. The model considers the flow of water, gas, and heat, plus reactions between minerals, CO{sub 2} gas, and aqueous species, and porosity permeability-capillary pressure coupling for a dual permeability (fractures and matrix) medium. Two possible operating temperature modes are investigated: a ''high-temperature'' case with temperatures exceeding the boiling point of water for several hundred years, and a ''low-temperature'' case with temperatures remaining below boiling for the entire life of the repository. In both cases, possible seepage waters are characterized by dilute to moderate salinities ...
The purpose of this report is to document drift-scale modeling work performed to evaluate the therma...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
Seepage refers to dripping of water into an underground tunnel. When hot radioactive waste is placed...
The evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel...
We present the results of a reactive transport modeling study that examines the sensitivity of miner...
This project investigated the effect of two repository operating temperature modes on coupled therma...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important fo...
An integrated modeling approach was developed to investigate long-term coupled thermal, hydrological...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important f...
The emplacement of heat-generating nuclear waste in the potential geologic repository at Yucca Mount...
An understanding of processes affecting seepage into emplacement tunnels is needed for correctly pr...
When hot radioactive waste is placed in subsurface tunnels, a series of complex changes occurs in th...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessin...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessi...
Current investigations for managing high-level nuclear wastes focus on studying deep geologic reposi...
The purpose of this report is to document drift-scale modeling work performed to evaluate the therma...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
Seepage refers to dripping of water into an underground tunnel. When hot radioactive waste is placed...
The evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel...
We present the results of a reactive transport modeling study that examines the sensitivity of miner...
This project investigated the effect of two repository operating temperature modes on coupled therma...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important fo...
An integrated modeling approach was developed to investigate long-term coupled thermal, hydrological...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important f...
The emplacement of heat-generating nuclear waste in the potential geologic repository at Yucca Mount...
An understanding of processes affecting seepage into emplacement tunnels is needed for correctly pr...
When hot radioactive waste is placed in subsurface tunnels, a series of complex changes occurs in th...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessin...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessi...
Current investigations for managing high-level nuclear wastes focus on studying deep geologic reposi...
The purpose of this report is to document drift-scale modeling work performed to evaluate the therma...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
Seepage refers to dripping of water into an underground tunnel. When hot radioactive waste is placed...