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MOX fuel
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Advanced Nuclear Power and Fuel Cycle Technologies: Outlook and Policy Options
MOX Fuel Program: Current Plans and Controversy
Management of Reprocessed Uranium Current Status and Future Prospects
Appendix B Differences Between Thermal and Radiation Properties of Mixed Oxide and Low-Enriched Uranium Radioactive Materials
Framatome ANP MOX Fuel Design
A Review of the Nuclear Fuel Cycle Strategies and the Spent Nuclear Fuel Management Technologies
Nuclear Fuel Cycles Technology Assessment
Status of MOX Fuel Fabrication, Utilization, XA0201760 Design and Performance in Lwrs
The Fuel Cycle Implications of Nuclear Process Heat
Pub1489 Web.Pdf
Minor Actinides Transmutation in Candidate Accident Tolerant Fuel
Comparison of the Proposed and Alternative Mox Fuel Fabrication Facility Plutonium-Polishing Processes
Plutonium Recycling in Lwrs
Don't Reprocess Spent Fuel from Light-Water Reactors
Plutonium Fuel in Thermal Reactors; And
Estimation of the Amounts of Curium and Americium Isotopes in SNF of the BN-600 Reactor E
Backgrounder: Plutonium
Top View
Developments in Fabrication of Annular MOX Fuel Pellet for Indian Fast Reactor
Disposition of Fissile Material from Nuclear Weapons
Reprocessing Is Not the “Solution” to the Nuclear Waste Problem
Validation of Nuclear Data for Transmutation from the Evaluation of Mox Fuel Irradiations
Getting to the Core of the NUCLEAR FUEL CYCLE
Economic Comparison Ofmox Fuel Cyclewithuranium Fuel Cycle
Alternatives to MOX Direct-Disposal Options for Stockpiles of Separated Plutonium
Advanced Nuclear Fuel Cycles and Radioactive Waste Management
Innovative Oxide Fuels Doped with Minor Actinides for Use in Fast Reactors
The Integral Fast Reactor
High Burn-Up Bwr Mox Fuel Design with Maximized Plutonium Inventory
Nuclear Spent Fuel Management Scenarios. Status and Assessment Report
2006:10 Models for MOX Fuel Behaviour
MIXED OXIDE NUCLEAR FUEL (MOX) POST 137 Post Note April 2000 MOX Is a Mixture of Uranium and Plutonium Oxides Used in Some Overseas Nuclear Power Stations
Plutonium in Use-From Single Atoms to Multiton Amounts
Trs, Spent MOX Fuel Assemblies from Fugen Were Reprocessed in the Tokai Reprocessing Plant
Performance of Mox Fuel: an Overview of the Experimental Programme of the Oecd Halden Reactor Project and Review of Selected Results
Management of the Energy and Economic Potential of Nuclear Waste Use
On China's Commercial Reprocessing Policy
Mixed-Oxide Fuel Fabrication Plant and Plutonium Disposition: Management and Policy Issues
The Use of MOX Fuel in the United States: Bibliography of Important Documents and Discussion of Key Issues
Plutonium As an Energy Source: Quantifying the Commercial Picture
Mixed-Oxide (MOX) Fuel Performance Benchmark
Application of Partitioning/Transmutation Of
Characteristics of Spent Fuel from Plutonium Disposition Reactors Vol. 1: the Combustion Engineering System 80+ Pressurized-Water-Reactor Design
Utilization of Surplus Weapons Plutonium As Mixed Oxide Fuel
Spent Fuel Reprocessing Options
IAEA Nuclear Energy Series Status of Minor Actinide Fuel Development
Mixed-Oxide Fuel Use in Commercial Light Water Reactors
Plutonium Separation in Nuclear Power Programs Status, Problems, and Prospects of Civilian Reprocessing Around the World
Mox Fuel Experience: Present Status and Future Improvements
The Economics of the Nuclear Fuel Cycle
Spent Nuclear Fuel Reprocessing and Plutonium Recycling: New Analysis Means for Optimal Schedules and the French Program for the Next Decade
Spent Nuclear Fuel Reprocessing in France
XA0056498 Invited Paper MOX FUEL USE AS a BACK-END OPTION
2007: 3Rd Quarter
Advanced Mixed Oxide Fuel Assemblies with Higher Plutonium Content for Light Water Reactors
Modular Lead-Bismuth Fast Reactors in Nuclear Power
Minor Actinide Burning in Thermal Reactors
Managing Spent Fuel in the United States: the Illogic of Reprocessing