Add to ORKGA thermal-hydrologic-natural-ventilation model is configured for simulating temperature, humidity, and condensate distributions in the coupled domains of the in-drift airspace and the near-field rockmass in the proposed Yucca Mountain repository. The multi-physics problem is solved with MULTIFLUX in which a lumped-parameter computational fluid dynamics model is iterated with TOUGH2. The solution includes natural convection, conduction, and radiation for heat as well as moisture convection and diffusion for moisture transport with half waste package scale details in the drift, and mountain-scale heat and moisture transport in the porous and fractured rock-mass. The method provides fast convergence on a personal computer computational platfor...
A three-dimensional site-scale numerical model has been developed to simulate water and gas flow, he...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
A numerical simulation of coupled multiphase fluid flow, heat transfer, and mechanical deformation w...
A thermal-hydrologic-natural-ventilation model is configuredfor simulating temperature, humidity, an...
In heated tunnels such as those designated for emplacementof radioactive waste at Yucca Mountain, ax...
This paper investigates the impact of proposed repositorythermal-loading on mountain-scale flow and ...
In heated tunnels such as those designated for emplacement of radioactive waste at Yucca Mountain, ...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for invest...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow and...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is developed for investi...
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 presented for investi...
The heat output of the radioactive waste proposed to be emplaced at Yucca Mountain will strongly aff...
A coupled thermal-hydrologic-airflow model is developed, solving for the transport processes within ...
A three-dimensional site-scale numerical model has been developed to simulate water and gas flow, he...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
A numerical simulation of coupled multiphase fluid flow, heat transfer, and mechanical deformation w...
A thermal-hydrologic-natural-ventilation model is configuredfor simulating temperature, humidity, an...
In heated tunnels such as those designated for emplacementof radioactive waste at Yucca Mountain, ax...
This paper investigates the impact of proposed repositorythermal-loading on mountain-scale flow and ...
In heated tunnels such as those designated for emplacement of radioactive waste at Yucca Mountain, ...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is presented for invest...
This paper investigates the impact of proposed repository thermal-loading on mountain-scale flow and...
The energy output of the high-level radioactive waste to be emplaced in the proposed geologic repos...
A multidimensional, mountain-scale, thermal-hydrologic (TH) numerical model is developed for investi...
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 presented for investi...
The heat output of the radioactive waste proposed to be emplaced at Yucca Mountain will strongly aff...
A coupled thermal-hydrologic-airflow model is developed, solving for the transport processes within ...
A three-dimensional site-scale numerical model has been developed to simulate water and gas flow, he...
The decay heat from radioactive waste that is to be disposed in the once proposed geologic repositor...
A numerical simulation of coupled multiphase fluid flow, heat transfer, and mechanical deformation w...