Add to ORKGPredicting the amount of water that may seep into waste emplacement drifts is important for assessing the performance of the proposed geologic repository for high-level radioactive waste at Yucca Mountain, Nevada. The repository would be located in thick, partially saturated fractured tuff that will be heated to above-boiling temperatures as a result of heat generation from the decay of nuclear waste. Since infiltrating water will be subject to vigorous boiling for a significant time period, the superheated rock zone (i.e., rock temperature above the boiling point of water) can form an effective vaporization barrier that reduces the possibility of water arrival at emplacement drifts. In this paper, we analyze the behavior of episod...
To safety and permanently store high-level nuclear waste, the potential Yucca Mountain repository sy...
Current investigations for managing high-level nuclear wastes focus on studying deep geologic reposi...
The evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel ...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessin...
Prediction of the amount of water that may seep into the waste emplacement drifts is an important a...
Prediction of the amount of water that may seep into the waste emplacement drifts is an important as...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important f...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important fo...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
Understanding water seepage in hot fractured rock is important in a number of fields including geoth...
The purpose of this report is to document drift-scale modeling work performed to evaluate the therma...
A thermal seepage model has been developed to evaluate the potential for seepage into the waste empl...
A thermal seepage model has been developed to evaluate the potential for seepage into the waste empl...
To safely and permanently store high-level nuclear waste, the potential Yucca Mountain repository si...
An understanding of processes affecting seepage into emplacement tunnels is needed for correctly pr...
To safety and permanently store high-level nuclear waste, the potential Yucca Mountain repository sy...
Current investigations for managing high-level nuclear wastes focus on studying deep geologic reposi...
The evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel ...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessin...
Prediction of the amount of water that may seep into the waste emplacement drifts is an important a...
Prediction of the amount of water that may seep into the waste emplacement drifts is an important as...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important f...
Predicting the amount of water that may seep into waste emplacement tunnels (drifts) is important fo...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
Understanding water seepage in hot fractured rock is important in a number of fields including geoth...
The purpose of this report is to document drift-scale modeling work performed to evaluate the therma...
A thermal seepage model has been developed to evaluate the potential for seepage into the waste empl...
A thermal seepage model has been developed to evaluate the potential for seepage into the waste empl...
To safely and permanently store high-level nuclear waste, the potential Yucca Mountain repository si...
An understanding of processes affecting seepage into emplacement tunnels is needed for correctly pr...
To safety and permanently store high-level nuclear waste, the potential Yucca Mountain repository sy...
Current investigations for managing high-level nuclear wastes focus on studying deep geologic reposi...
The evolution of fluid chemistry and mineral alteration around a potential waste emplacement tunnel ...