Add to ORKGSolutions for the steady-state power exhaust problem in future fusion reactors (e.g. DEMO) are not automatically provided by present experiments or even ITER, because the expected heat fluxes, as well as the level of neutron irradiation, will be much higher. Dedicated work packages are being devoted to this problem within EUROfusion and even a dedicated facility (the Divertor Tokamak Test – DTT) is being proposed by Italy. Among the possible solutions, a liquid metal (LM) divertor has been proposed more than 20 years ago. The particularly attractive feature of this solution is obviously the absence of damage to the wall, even in case of large heat fluxes, thanks to the high latent heat of evaporation, to the liquid nature of the wall –that ...
A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...
Solutions for the steady-state power exhaust problem in future fusion reactors (e.g. DEMO) are not a...
Considering that solutions for the steady-state power exhaust problem in future fusion reactors (e.g...
In a tokamak a part of the energy is deposited as heat in the region called divertor. Liquid metal ...
In the present work a model for a liquid metal (LM) box-type divertor is presented, aimed at includi...
To develop realistic liquid lithium divertors for future fusion reactors, this paper aims to improve...
Developing a reactor compatible divertor has been identified as a particularly challenging technolog...
Two small liquid metal targets based on the capillary porous structure were exposed to the divertor ...
Liquid metal (LM) divertors are considered for the European DEMO reactor, because they may offer imp...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
\u3cp\u3eFor DEMO and beyond, liquid metal plasma-facing components are considered due to their resi...
In this work, a conceptual design for a pre-filled liquid lithium divertor target for the National S...
The use of low atomic number liquid metals has been shown to have the potential to solve many of the...
A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...
Solutions for the steady-state power exhaust problem in future fusion reactors (e.g. DEMO) are not a...
Considering that solutions for the steady-state power exhaust problem in future fusion reactors (e.g...
In a tokamak a part of the energy is deposited as heat in the region called divertor. Liquid metal ...
In the present work a model for a liquid metal (LM) box-type divertor is presented, aimed at includi...
To develop realistic liquid lithium divertors for future fusion reactors, this paper aims to improve...
Developing a reactor compatible divertor has been identified as a particularly challenging technolog...
Two small liquid metal targets based on the capillary porous structure were exposed to the divertor ...
Liquid metal (LM) divertors are considered for the European DEMO reactor, because they may offer imp...
Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...
\u3cp\u3eFor DEMO and beyond, liquid metal plasma-facing components are considered due to their resi...
In this work, a conceptual design for a pre-filled liquid lithium divertor target for the National S...
The use of low atomic number liquid metals has been shown to have the potential to solve many of the...
A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...
Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...
The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...