Add to ORKGA new concept of a Liquid Lithium Fusion Reactor and the first experimental results were presented at the 16th IAEA Conference on Fusion Energy. During the past two years theoretical estimations have been made, and calculated and experimental results have been obtained in confirmation of this concept and supporting its progress. The main results of this work are given in the paper. 1
Considering that solutions for the steady-state power exhaust problem in future fusion reactors (e.g...
The High Yield Lithium Injection Fusion Energy (HYLIFE) converter is a reactor concept for an inerti...
Experiments were conducted to demonstrate the stable operation of a windowless liquid lithium target...
AbstractThe TechnoFusión project involves the construction of a relevant set of scientific-technical...
The lithium waterfall reactor is described as a concept in which liquid lithium serves as the coolan...
Solutions for the steady-state power exhaust problem in future fusion reactors (e.g. DEMO) are not a...
Scoping studies were initiated to identify attractive reactor concepts for producing electric power ...
The use of low atomic number liquid metals has been shown to have the potential to solve many of the...
The application of liquid metal technology in fusion devices requires R&D related to many phenomena:...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
Part of the development of liquid metals as a first wall or divertor for reactor applications must i...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
In a tokamak a part of the energy is deposited as heat in the region called divertor. Liquid metal ...
The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...
The aim of this project is to provide the basis for risk assessments relating to the risk of lithium...
Considering that solutions for the steady-state power exhaust problem in future fusion reactors (e.g...
The High Yield Lithium Injection Fusion Energy (HYLIFE) converter is a reactor concept for an inerti...
Experiments were conducted to demonstrate the stable operation of a windowless liquid lithium target...
AbstractThe TechnoFusión project involves the construction of a relevant set of scientific-technical...
The lithium waterfall reactor is described as a concept in which liquid lithium serves as the coolan...
Solutions for the steady-state power exhaust problem in future fusion reactors (e.g. DEMO) are not a...
Scoping studies were initiated to identify attractive reactor concepts for producing electric power ...
The use of low atomic number liquid metals has been shown to have the potential to solve many of the...
The application of liquid metal technology in fusion devices requires R&D related to many phenomena:...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
Part of the development of liquid metals as a first wall or divertor for reactor applications must i...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
In a tokamak a part of the energy is deposited as heat in the region called divertor. Liquid metal ...
The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...
The aim of this project is to provide the basis for risk assessments relating to the risk of lithium...
Considering that solutions for the steady-state power exhaust problem in future fusion reactors (e.g...
The High Yield Lithium Injection Fusion Energy (HYLIFE) converter is a reactor concept for an inerti...
Experiments were conducted to demonstrate the stable operation of a windowless liquid lithium target...