Two complementary numerical models for analyzing high-level nuclear waste emplacement at Yucca Mountain have been developed. A vertical cross-sectional (X-Z) model permits a realistic representation of hydrogeologic features, such as alternating tilting layers of welded and non-welded tuffs. fault zones, and surface topography. An alternative radially symmetric (R-Z) model is more limited in its ability to describe the hydrogeology of the site, but is better suited to model heat transfer in the host rock. Our models include a comprehensive description of multiphase fluid and heat flow processes, including strong enhancements of vapor diffusion from pore-level phase change effects. The neighborhood of the repository is found to partially dry...
An integrated modeling approach was developed to investigate long-term coupled thermal, hydrological...
A computer model (TGIF -- Thermal Gradient Induced Flow) of two-dimensional, steady-state rock-gas f...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessi...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for invest...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for investi...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow and...
Repository performance models based on numerical simulation of fluid and heat flows have recently be...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow an...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is developed for investi...
The 500-700 m thick Yucca Mountain unsaturated zone (UZ) is under extensive investigation as a subsu...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca M...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca M...
The US Department of Energy is performing detailed site characterization studies at Yucca Mountain t...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca ...
A three-dimensional site-scale numerical model has been developed to simulate water and gas flow, he...
An integrated modeling approach was developed to investigate long-term coupled thermal, hydrological...
A computer model (TGIF -- Thermal Gradient Induced Flow) of two-dimensional, steady-state rock-gas f...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessi...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for invest...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for investi...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow and...
Repository performance models based on numerical simulation of fluid and heat flows have recently be...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow an...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is developed for investi...
The 500-700 m thick Yucca Mountain unsaturated zone (UZ) is under extensive investigation as a subsu...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca M...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca M...
The US Department of Energy is performing detailed site characterization studies at Yucca Mountain t...
This paper presents a numerical study on the response of the unsaturated zone (UZ) system of Yucca ...
A three-dimensional site-scale numerical model has been developed to simulate water and gas flow, he...
An integrated modeling approach was developed to investigate long-term coupled thermal, hydrological...
A computer model (TGIF -- Thermal Gradient Induced Flow) of two-dimensional, steady-state rock-gas f...
Predicting the amount of water that may seep into waste emplacement drifts is important for assessi...