gptkbp:instanceOf
|
Nuclear Reactor Type
|
gptkbp:advantage
|
Corrosive Salt Handling
High Thermal Efficiency
Limited Operational Experience
Low Operating Pressure
Passive Safety Features
|
gptkbp:canBe
|
Desalination
Electricity Generation
Hydrogen Production
Process Heat
|
gptkbp:canBreedFuel
|
Yes
|
gptkbp:canOperateAt
|
High Temperatures
|
gptkbp:canOperateWith
|
Online Refueling
|
gptkbp:canUseModerator
|
Graphite
No Moderator
|
gptkbp:challenge
|
Cost of Development
Fission Product Management
Material Compatibility
Regulatory Approval
Salt Chemistry Control
|
gptkbp:coolingSystem
|
Molten Salt
|
gptkbp:developedBy
|
gptkb:Oak_Ridge_National_Laboratory
1950s
|
gptkbp:fuelType
|
gptkb:uranium
gptkb:Thorium
Dissolved Nuclear Fuel
|
gptkbp:hasCoolantForm
|
gptkb:water
|
gptkbp:hasFuelCycle
|
Closed Fuel Cycle
|
gptkbp:hasFuelForm
|
gptkb:water
|
gptkbp:hasPotentialAdvantage
|
Load Following Capability
Reduced Water Usage
Small Modular Design
|
gptkbp:hasReactorCoreType
|
Heterogeneous
Homogeneous
|
https://www.w3.org/2000/01/rdf-schema#label
|
Molten Salt Reactor
|
gptkbp:isGeneration
|
gptkb:Generation_IV_Reactor
|
gptkbp:notableExample
|
gptkb:Liquid_Fluoride_Thorium_Reactor
gptkb:Molten-Salt_Reactor_Experiment
|
gptkbp:reduces
|
Nuclear Waste
Proliferation Risk
|
gptkbp:researchInterest
|
gptkb:Canada
gptkb:China
gptkb:France
gptkb:India
gptkb:Japan
gptkb:Russia
gptkb:United_Kingdom
gptkb:United_States
|
gptkbp:bfsParent
|
gptkb:Alvin_Weinberg
|
gptkbp:bfsLayer
|
4
|