Apart from liquid metals, low-conductivity fluids such as molten salt Flibe ((LiF)n•(BeF2)) are being considered as a practical candidate for nuclear fusion applications. For example, a 2 cm thick free surface Flibe layer with a velocity of 10 m/s is used in one of the designs of the APEX study (Advanced Power Extraction) [1]. Unlike liquid metals, Flib
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
The design of breeding blankets represents the major challenge for fusion reactor engineering becaus...
Heat transfer in closed channel flows of molten salts (MS)s, such as FLiBe or FLiNaBe, has been cons...
For decades, nuclear fusion energy has been pursued by scientist worldwide. This is because fusion e...
Background Nuclear reactors utilizing molten fuels rather than solid fuels show a massive advantage ...
Liquid metal cooled reactors are envisaged to play an important role in the future of nuclear energy...
The idea of using fast flowing liquid metal streams or ”liquid walls”, as plasma facing components (...
DEMO reactor is projected as a technological demonstrator and a component test reactor for several k...
The attractiveness of liquid metal blankets depends strongly on the degree of which peak pressures a...
The design of the Flowing LIquid Torus (FLIT) at Princeton Plasma Physics Laboratory (PPPL) is prese...
Numerical Modeling of Fluid Flow in a Molten Salt Reactor Molten Salt Reactors (MSRs) are a generati...
: Liquid metal breeding blankets are extensively studied in nuclear fusion. In the main proposed sys...
International audienceLiquid fuel nuclear reactors offer innovative possibilities in terms of nuclea...
Molten salt is a good heat transfer and storage medium for nuclear applications. However, understand...
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
The design of breeding blankets represents the major challenge for fusion reactor engineering becaus...
Heat transfer in closed channel flows of molten salts (MS)s, such as FLiBe or FLiNaBe, has been cons...
For decades, nuclear fusion energy has been pursued by scientist worldwide. This is because fusion e...
Background Nuclear reactors utilizing molten fuels rather than solid fuels show a massive advantage ...
Liquid metal cooled reactors are envisaged to play an important role in the future of nuclear energy...
The idea of using fast flowing liquid metal streams or ”liquid walls”, as plasma facing components (...
DEMO reactor is projected as a technological demonstrator and a component test reactor for several k...
The attractiveness of liquid metal blankets depends strongly on the degree of which peak pressures a...
The design of the Flowing LIquid Torus (FLIT) at Princeton Plasma Physics Laboratory (PPPL) is prese...
Numerical Modeling of Fluid Flow in a Molten Salt Reactor Molten Salt Reactors (MSRs) are a generati...
: Liquid metal breeding blankets are extensively studied in nuclear fusion. In the main proposed sys...
International audienceLiquid fuel nuclear reactors offer innovative possibilities in terms of nuclea...
Molten salt is a good heat transfer and storage medium for nuclear applications. However, understand...
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
An overview of the ongoing efforts in the area of the thermal hydraulics modeling of a Molten Salt F...
The design of breeding blankets represents the major challenge for fusion reactor engineering becaus...
Add to ORKG