Add to ORKGThe impact of a number of current and future nuclear systems on global plutonium inventories is assessed under realistic forecasts of nuclear power growth. Advanced systems, such as those employing Accelerator Driven Transmutation Technologies (ADTT) and liquid metal reactors, show significant promise for meeting future plutonium management needs. These analyses also indicate requirements for a higher level of detail in the nuclear fuel cycle model and for development of a metric to more quantitatively assess the proliferation risk of plutonium arising from the civilian fuel cycle
Managment of excess nuclear materials from US weapons dismantlement has been the subject of numerous...
The paper provides a rationale for resolution of the long-term waste disposition issue based on comp...
The following report provides a rich resource of information for exploring fuel cycle characteristic...
The potential for reducing plutonium inventories in the civilian nuclear fuel cycle through recycle ...
Nuclear systems under study in the Los Alamos Accelerator-Driven Transmutation Technology program (A...
The United States has no program to investigate advanced nuclear fuel cycles for the large-scale con...
The post-cold war era has greatly enhanced the interest in the long-term stewardship of plutonium. T...
In the recent years, non-proliferation of nuclear materials has become an important issue, regarding...
A strategy for future nuclear materials management and utilization from proliferation and long-term ...
The role of accelerator-driven transmutation technology is examined in the context of the destructio...
After description of the uranium / plutonium fuel cycle results are reported for various isotopic co...
An inevitable effect of uranium fuel operation is the production of plutonium. Its increasing invent...
The goals for plutonium management have changed dramatically over the past few years. Today, the cha...
An inevitable effect of uranium fuel operation is the production of plutonium. Its increasing invent...
In the recent years, non-proliferation of nuclear materials has become an important issue, regarding...
Managment of excess nuclear materials from US weapons dismantlement has been the subject of numerous...
The paper provides a rationale for resolution of the long-term waste disposition issue based on comp...
The following report provides a rich resource of information for exploring fuel cycle characteristic...
The potential for reducing plutonium inventories in the civilian nuclear fuel cycle through recycle ...
Nuclear systems under study in the Los Alamos Accelerator-Driven Transmutation Technology program (A...
The United States has no program to investigate advanced nuclear fuel cycles for the large-scale con...
The post-cold war era has greatly enhanced the interest in the long-term stewardship of plutonium. T...
In the recent years, non-proliferation of nuclear materials has become an important issue, regarding...
A strategy for future nuclear materials management and utilization from proliferation and long-term ...
The role of accelerator-driven transmutation technology is examined in the context of the destructio...
After description of the uranium / plutonium fuel cycle results are reported for various isotopic co...
An inevitable effect of uranium fuel operation is the production of plutonium. Its increasing invent...
The goals for plutonium management have changed dramatically over the past few years. Today, the cha...
An inevitable effect of uranium fuel operation is the production of plutonium. Its increasing invent...
In the recent years, non-proliferation of nuclear materials has become an important issue, regarding...
Managment of excess nuclear materials from US weapons dismantlement has been the subject of numerous...
The paper provides a rationale for resolution of the long-term waste disposition issue based on comp...
The following report provides a rich resource of information for exploring fuel cycle characteristic...