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FLiBe
Molten-Salt Technology and Fission Product Handling
A Comparison of Advanced Nuclear Technologies
0409-TOFE-Elguebaly
Medical Isotope Production in Liquid-Fluoride Reactors
Liquid Fluoride Salt Experiment Using a Small Natural Circulation Cell
System Studies of Fission-Fusion Hybrid Molten Salt Reactors
Effect of Flibe Thermal Neutron Scattering on Reactivity of Molten Salt Re- Actor
“Advanced” Isn't Always Better
History, Background, and Current MSR Developments
The High-Field Path to Practical Fusion Energy
Preliminary Design Study of a Continuous Fluorination-Vacuum-Distillation System for Regenerating Fuel and Fertile Streams in a Molten-Salt Breeder Reactor
Liquid-Fluoride Thorium Reactor Development Strategy
Identification of Potential Waste Processing and Waste Form Options for Molten Salt Reactors
Fluoride Salt Coolant Properties for Nuclear Reactor Applications: a Review
Atomic Shield, 1947 / 1952
INFUSE 2021A Award Notification
Understanding Tritium Transport Behavior in Molten Fluoride-Salt and Graphite Systems
Flibe Molten Salt Processing
Top View
Advanced Nuclear Reactors: Technology Overview and Current Issues
§ 16. Compatibility of Structural Materials with FLIBE Molten Salt
Beryllium Technology Research in the United States
Experimental Study of Counter-Current Extraction Tower for Tritium Recovery
State-Of-The-Art Report on the Progress of Nuclear Fuel Cycle Chemistry
Environmental Detection of Clandestine Nuclear Weapon Programs
Iaea Tecdoc Series Tecdoc Iaea @
Worldwide Efforts to Develop Molten-Salt Reactorsand Thorium Fuel Cycles
Status Report – LFTR
Transmutation of Minor Actinides in a Sphericaltorus Tokamak Fusion
Conceptual Design Study for Heat Exhaust Management in the ARC Fusion Pilot Plant
Reimagining Nuclear Energy with Molten-Salt Technology
Flibe Energy(K.Harris)
Molten Salt Reactors
Chemical Processing Techniques and History for Molten-Salt Reactors
Advanced Reactor Technology Program Molten Salt Reactor Campaign FY 2018 Summary
Program Plan for Development of Molten-Salt Breeder Reactors
Heat Transfer Salts for Nuclear Reactor Systems – Chemistry Control, Corrosion Mitigation, and Modeling
Modeling Lif and Flibe Molten Salts with Robust Neural Network Interatomic Potentials
Review of Hazards Associated with Molten Salt Reactor Fuel Processing Operations
5. Thick Liquid Blanket Concept 5.1 Introduction Ralph Moir 5.2 Idea
ARC: a Compact, High-Field, Fusion Nuclear Science Facility and Demonstration Power Plant with Demountable Magnets
Thorium Research in the Manhattan Project Era
Stellarator Fusion Reactors –– an Overview
Flibe-Tritium Research for Fission Or Fusion Reactors at Kyushu University
Supplying the Nuclear Arsenal: Production Reactor Technology,Management, and Policy 1942-1992
For Decades, One Design Has Dominated Nuclear Reactors While Potentially Better Options Were Left by the Wayside
An Investigation Into Liquid Fluoride Thorium Reactors
Our Recent Experimental Challenges on Flibe Or Flinabe Coolant For
Uranium-Thorium Liquid-Salt Reactor for Producing Valuable Radioisotopes
X-Rays Surface and Volumetric Heat Deposition and Tritium Breeding Issues in Liquid- Protected Fw in High Power Density Devices
Attractive Design Approaches for a Compact Stellarator Power Plant