Add to ORKGThe Yucca Mountain repository configuration consists of waste packages stored inside of underground tunnels, or drifts. The waste packages generate heat due to radioactive decay, and moisture flows into and out of the drifts in liquid and vapor form. Heat and mass transfer within the drifts, including interaction with the surrounding rock, are potentially important processes for the performance of the repository. The present report documents models for in-drift heat and mass transfer during the post-closure period. Pre-closure, or ventilated, conditions are documented in a separate report (BSC 2004 [DIRS 169862])
A coupled thermal-hydrologic-airflow model is developed, solving for the transport processes within ...
This project investigated the effect of two repository operating temperature modes on coupled therma...
Drift-emplaced waste canisters are under consideration for the long-term storage of high level spent...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
The proposed nuclear waste repository at Yucca Mountain, Nevada currently includes a minimum of 50 y...
Yucca Mountain, Nevada has been designated as the nation's high-level radioactive waste repository a...
A numerical model of the residual heat associated with stored nuclear waste casks proposed for long-...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
The heat output of the radioactive waste proposed to be emplaced at Yucca Mountain will strongly aff...
In heated tunnels such as those designated for emplacementof radioactive waste at Yucca Mountain, ax...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
The Yucca Mountain Site Characterization Project is investigating the feasibility of locating a high...
Drift-emplaced waste canisters are under consideration for the long-term storage of high-level spent...
Two complementary numerical models for analyzing high-level nuclear waste emplacement at Yucca Mount...
To safely and permanently store high-level nuclear waste, the potential Yucca Mountain repository si...
A coupled thermal-hydrologic-airflow model is developed, solving for the transport processes within ...
This project investigated the effect of two repository operating temperature modes on coupled therma...
Drift-emplaced waste canisters are under consideration for the long-term storage of high level spent...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
The proposed nuclear waste repository at Yucca Mountain, Nevada currently includes a minimum of 50 y...
Yucca Mountain, Nevada has been designated as the nation's high-level radioactive waste repository a...
A numerical model of the residual heat associated with stored nuclear waste casks proposed for long-...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
The heat output of the radioactive waste proposed to be emplaced at Yucca Mountain will strongly aff...
In heated tunnels such as those designated for emplacementof radioactive waste at Yucca Mountain, ax...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
The Yucca Mountain Site Characterization Project is investigating the feasibility of locating a high...
Drift-emplaced waste canisters are under consideration for the long-term storage of high-level spent...
Two complementary numerical models for analyzing high-level nuclear waste emplacement at Yucca Mount...
To safely and permanently store high-level nuclear waste, the potential Yucca Mountain repository si...
A coupled thermal-hydrologic-airflow model is developed, solving for the transport processes within ...
This project investigated the effect of two repository operating temperature modes on coupled therma...
Drift-emplaced waste canisters are under consideration for the long-term storage of high level spent...