Add to ORKGPartitioning the actinides in spent nuclear fuel and transmuting them in actinide-burning liquid-metal reactors has been proposed as a potential method of reducing the public risks from geologic disposal of nuclear waste. To quantify the benefits for waste disposal of actinide burning, we calculate the release rates of key radionuclides from waste packages resulting from actinide burning, and compare them with release rates from LWR spent fuel destined for disposal at the potential repository at Yucca Mountain. The wet-drip water-contact mode has been used. Analytic methods and parameter values are very similar to those used for assessing Yucca Mountain as a potential repository. Once released, the transport characteristics of radionuclides...
Spent fuel from nuclear power plants contains large quantities of Pu, other actinides, and fission p...
In the long run, nuclear waste packages will fail gradually due to localized and general corrosion a...
Drip tests to measure radionuclide release from spent nuclear fuel are being performed at 90{degrees...
Release rates of 15 radionuclides from waste packages expected to result from partitioning and trans...
The presence of actinides in spent fuel destined for a geologic repository such as the proposed Yucc...
Nuclear waste may be placed in the potential repository at Yucca Mountain in waste packages. The was...
This report presents preliminary calculations of time-dependent release rates of selected radionucli...
The safe disposal of the nation's nuclear waste in a geologic repository is one of the most signific...
Packages of high-level waste are to be emplaced in unsaturated tuff at the proposed Yucca Mountain r...
Performance-assessment calculations in support of the site- suitability effort for the Yucca Mountai...
As nuclear reactors around the world continuously generate highly radioactive waste, the ways in whi...
As nuclear reactors around the world continuously generate highly radioactive waste, the ways in whi...
Safe disposal of the nation's nuclear waste in a geological repository involves unique scientific an...
In a moist oxidizing environment, such as in the proposed geological repository at Yucca Mountain, r...
A parametric model for releases of radionuclides from spent-nuclear-fuel containers in a waste repos...
Spent fuel from nuclear power plants contains large quantities of Pu, other actinides, and fission p...
In the long run, nuclear waste packages will fail gradually due to localized and general corrosion a...
Drip tests to measure radionuclide release from spent nuclear fuel are being performed at 90{degrees...
Release rates of 15 radionuclides from waste packages expected to result from partitioning and trans...
The presence of actinides in spent fuel destined for a geologic repository such as the proposed Yucc...
Nuclear waste may be placed in the potential repository at Yucca Mountain in waste packages. The was...
This report presents preliminary calculations of time-dependent release rates of selected radionucli...
The safe disposal of the nation's nuclear waste in a geologic repository is one of the most signific...
Packages of high-level waste are to be emplaced in unsaturated tuff at the proposed Yucca Mountain r...
Performance-assessment calculations in support of the site- suitability effort for the Yucca Mountai...
As nuclear reactors around the world continuously generate highly radioactive waste, the ways in whi...
As nuclear reactors around the world continuously generate highly radioactive waste, the ways in whi...
Safe disposal of the nation's nuclear waste in a geological repository involves unique scientific an...
In a moist oxidizing environment, such as in the proposed geological repository at Yucca Mountain, r...
A parametric model for releases of radionuclides from spent-nuclear-fuel containers in a waste repos...
Spent fuel from nuclear power plants contains large quantities of Pu, other actinides, and fission p...
In the long run, nuclear waste packages will fail gradually due to localized and general corrosion a...
Drip tests to measure radionuclide release from spent nuclear fuel are being performed at 90{degrees...