LiMeS-lab: An integrated laboratory for the development of Liquid-Metal Shield technologies for fusion reactors

A study on hydrogen isotopes transport in a liquid metal GaInSn by plasma-driven permeation method

Hailin Bi
Yoshi Hirooka
Juro Yagi
Yue Xu

August 2017

The application of liquid metals such as gallium, tin and lithium as plasma-facing materials is a po...

Liquid metals as a divertor plasma facing material explored using the Pilot-PSI and Magnum-PSI linear devices

Morgan, T. W.
Rindt, P.
van Eden, G. G.
Kvon, V.
Jaworski, M. A.
Cardozo, N. J. Lopes

January 2018

Abstract For DEMO and beyond liquid metal plasma facing components are considered due to their resil...

Effect of lithium vapour shielding on hydrogen plasma parameters

F. Romano
P. Rindt
J. Scholten
Y. Hayashi
T.W. Morgan

January 2021

A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...

LiMeS-lab: An integrated laboratory for the development of Liquid-Metal Shield technologies for fusion reactors

Al, R.
Alonso van der Westen, S.
Brons, S.
Classen, I.
van Dommelen, J.A.W. (Hans)
Geers., M.
Lopes Cardozo, N.
van der Meiden, H.
van de Pol, M.
Riepen, M.
Rindt, P.
Scholten, J.
Vernimmen, J.
Vos, E.
Morgan, T.
Applied Physics and Science Education
Mechanics of Materials
Group Van Dommelen
Science and Technology of Nuclear Fusion

February 2023

The liquid metal shield laboratory (LiMeS-Lab) will provide the infrastructure to develop, test, and...

LiMeS-Lab:An Integrated Laboratory for the Development of Liquid–Metal Shield Technologies for Fusion Reactors

Tanke, V. F.B.
Al, R. S.
Alonso van der Westen, S.
Brons, S.
Classen, I. G.J.
van Dommelen, J. A.W.
van Eck, H. J.N.
Geers, M. G.D.
Lopes Cardozo, N. J.
van der Meiden, H. J.
Orrico, C. A.
van de Pol, M. J.
Riepen, M.
Rindt, P.
de Rooij, T. P.
Scholten, J.
Timmer, R. H.M.
Vernimmen, J. W.M.
Vos, E. G.P.
Morgan, T. W.

December 2023

The liquid metal shield laboratory (LiMeS-Lab) will provide the infrastructure to develop, test, and...

Conceptual design of the liquid metal laboratory of the TECHNOFUSION facility

Abánades Velasco, Alberto
García, A.
Casal, N.
Perlado Martín, José Manuel
Ibarra, A.

February 2012

The application of liquid metal technology in fusion devices requires R&D related to many phenomena:...

Conceptual Design of Lithium Laboratory in the TechnoFusión Project

Moral, O. González-del
García, Á.
Casal, N.
Abánades, A.
Ibarra, Á.
Perlado, J.M.

December 2014

AbstractThe TechnoFusión project involves the construction of a relevant set of scientific-technical...

Study of temperature dependence of hydrogen retention in lithium coatings on stainless steel with the Materials Analysis Particle Probe (MAPP)

Bedoya Arroyave, Carlos Felipe

December 2015

Plasma materials interactions (PMI) in tokamak machines play a crucial role in the overall plasma pe...

Impact of liquid metal surface on plasma-surface interaction in experiments with lithium and tin capillary porous systems

Budaev, V. P.
Lyublinsky, I. E.
Fedorovich, S. D.
Dedov, A., V
Vertkov, A. V.
Komov, A. T.
Karpov, A., V
Martynenko, Yu, V
Van Oost, GuidoTW17801001330775F5B8A67A-F0ED-11E1-A9DE-61C894A0A6B4
Gubkin, M. K.
Lukashevsky, M., V
Marchenkov, A. Yu
Rogozin, K. A.
Vasiliev, G. B.
Konkov, A. A.
Lazukin, A., V
Zakharenkov, A., V
Zakletsky, Z. A.

January 2020

The lithium and tin capillary-porous systems (CPSs) were tested with steady-state plasma in the PLM ...

Overview of Liquid-Metal PFC R&D at the University of Illinois Urbana-Champaign

Andruczyk, D.
Rizkallah, R.
O’Dea, D.
Shone, A.
Smith, S.
Kamiyama, B.
Maingi, R.
Kessel, C.E.
Smolentsev, S.
Morgan, T.W.
Romano, F.

November 2023

The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...

Experiments with Liquid Metal Walls: Status of the Lithium Tokamak Experiment

Boyle, Dennis
Gray, Timothy
Granstedt, Erik
Kozub, Thomas
Berzak, Laura
Hammett, Gregory
Kugel, Henry
Leblanc, Benoit
Logan, Nicholas
Jacobson, Craig M.
Lucia, Matthew
Jones, Andrew
Lundberg, Daniel
Timberlake, John
Majeski, Richard
Yoo, Jongsoo
Mansfield, Dennis
Zakharov, L.
Menard, Jonathan
Spaleta, Jeffrey
Strickler, Trevor
Tritz, Kevin
Maingi, Rajesh
Soukhanovskii, Vlad
Gershman, Sophia
Kaita, Robert

November 2010

Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...

Liquid metals as a divertor plasma-facing material explored using the Pilot-PSI and Magnum-PSI linear devices

Morgan, TW Thomas
Rindt, P Peter
Eden, GG Stein van
Kvon, V
Jaworksi, MA
Lopes Cardozo, NJ Niek

January 2018

\u3cp\u3eFor DEMO and beyond, liquid metal plasma-facing components are considered due to their resi...

Phenomenology of plasma-wall interaction using liquid metals in tokamak devices

Iafrati, Matteo

May 2019

The goal of the present thesis is to present the theoretical and experimental results concerning the...

Conceptual design of a liquid-metal divertor for the European DEMO

Rindt, P.
van den Eijnden, J.L.
Morgan, T.W.
Lopes Cardozo, N.J.

December 2021

Liquid metal (LM) divertors are considered for the European DEMO reactor, because they may offer imp...

A study on hydrogen isotopes transport in a liquid metal GaInSn by plasma-driven permeation method

Hailin Bi
Yoshi Hirooka
Juro Yagi
Yue Xu

August 2017

The application of liquid metals such as gallium, tin and lithium as plasma-facing materials is a po...

Liquid metals as a divertor plasma facing material explored using the Pilot-PSI and Magnum-PSI linear devices

Morgan, T. W.
Rindt, P.
van Eden, G. G.
Kvon, V.
Jaworski, M. A.
Cardozo, N. J. Lopes

January 2018

Abstract For DEMO and beyond liquid metal plasma facing components are considered due to their resil...

Effect of lithium vapour shielding on hydrogen plasma parameters

F. Romano
P. Rindt
J. Scholten
Y. Hayashi
T.W. Morgan

January 2021

A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...

LiMeS-lab: An integrated laboratory for the development of Liquid-Metal Shield technologies for fusion reactors

Al, R.
Alonso van der Westen, S.
Brons, S.
Classen, I.
van Dommelen, J.A.W. (Hans)
Geers., M.
Lopes Cardozo, N.
van der Meiden, H.
van de Pol, M.
Riepen, M.
Rindt, P.
Scholten, J.
Vernimmen, J.
Vos, E.
Morgan, T.
Applied Physics and Science Education
Mechanics of Materials
Group Van Dommelen
Science and Technology of Nuclear Fusion

February 2023

The liquid metal shield laboratory (LiMeS-Lab) will provide the infrastructure to develop, test, and...

LiMeS-Lab:An Integrated Laboratory for the Development of Liquid–Metal Shield Technologies for Fusion Reactors

Tanke, V. F.B.
Al, R. S.
Alonso van der Westen, S.
Brons, S.
Classen, I. G.J.
van Dommelen, J. A.W.
van Eck, H. J.N.
Geers, M. G.D.
Lopes Cardozo, N. J.
van der Meiden, H. J.
Orrico, C. A.
van de Pol, M. J.
Riepen, M.
Rindt, P.
de Rooij, T. P.
Scholten, J.
Timmer, R. H.M.
Vernimmen, J. W.M.
Vos, E. G.P.
Morgan, T. W.

December 2023

The liquid metal shield laboratory (LiMeS-Lab) will provide the infrastructure to develop, test, and...

Conceptual design of the liquid metal laboratory of the TECHNOFUSION facility

Abánades Velasco, Alberto
García, A.
Casal, N.
Perlado Martín, José Manuel
Ibarra, A.

February 2012

The application of liquid metal technology in fusion devices requires R&D related to many phenomena:...

Conceptual Design of Lithium Laboratory in the TechnoFusión Project

Moral, O. González-del
García, Á.
Casal, N.
Abánades, A.
Ibarra, Á.
Perlado, J.M.

December 2014

AbstractThe TechnoFusión project involves the construction of a relevant set of scientific-technical...

Study of temperature dependence of hydrogen retention in lithium coatings on stainless steel with the Materials Analysis Particle Probe (MAPP)

Bedoya Arroyave, Carlos Felipe

December 2015

Plasma materials interactions (PMI) in tokamak machines play a crucial role in the overall plasma pe...

Impact of liquid metal surface on plasma-surface interaction in experiments with lithium and tin capillary porous systems

Budaev, V. P.
Lyublinsky, I. E.
Fedorovich, S. D.
Dedov, A., V
Vertkov, A. V.
Komov, A. T.
Karpov, A., V
Martynenko, Yu, V
Van Oost, GuidoTW17801001330775F5B8A67A-F0ED-11E1-A9DE-61C894A0A6B4
Gubkin, M. K.
Lukashevsky, M., V
Marchenkov, A. Yu
Rogozin, K. A.
Vasiliev, G. B.
Konkov, A. A.
Lazukin, A., V
Zakharenkov, A., V
Zakletsky, Z. A.

January 2020

The lithium and tin capillary-porous systems (CPSs) were tested with steady-state plasma in the PLM ...

Overview of Liquid-Metal PFC R&D at the University of Illinois Urbana-Champaign

Andruczyk, D.
Rizkallah, R.
O’Dea, D.
Shone, A.
Smith, S.
Kamiyama, B.
Maingi, R.
Kessel, C.E.
Smolentsev, S.
Morgan, T.W.
Romano, F.

November 2023

The design and implementation of future flowing liquid-lithium plasma-facing components (LLPFCs) wil...

Experiments with Liquid Metal Walls: Status of the Lithium Tokamak Experiment

Boyle, Dennis
Gray, Timothy
Granstedt, Erik
Kozub, Thomas
Berzak, Laura
Hammett, Gregory
Kugel, Henry
Leblanc, Benoit
Logan, Nicholas
Jacobson, Craig M.
Lucia, Matthew
Jones, Andrew
Lundberg, Daniel
Timberlake, John
Majeski, Richard
Yoo, Jongsoo
Mansfield, Dennis
Zakharov, L.
Menard, Jonathan
Spaleta, Jeffrey
Strickler, Trevor
Tritz, Kevin
Maingi, Rajesh
Soukhanovskii, Vlad
Gershman, Sophia
Kaita, Robert

November 2010

Liquid metal walls have been proposed to address the first wall challenge for fusion reactors. The L...

Liquid metals as a divertor plasma-facing material explored using the Pilot-PSI and Magnum-PSI linear devices

Morgan, TW Thomas
Rindt, P Peter
Eden, GG Stein van
Kvon, V
Jaworksi, MA
Lopes Cardozo, NJ Niek

January 2018

\u3cp\u3eFor DEMO and beyond, liquid metal plasma-facing components are considered due to their resi...

Phenomenology of plasma-wall interaction using liquid metals in tokamak devices

Iafrati, Matteo

May 2019

The goal of the present thesis is to present the theoretical and experimental results concerning the...

Conceptual design of a liquid-metal divertor for the European DEMO

Rindt, P.
van den Eijnden, J.L.
Morgan, T.W.
Lopes Cardozo, N.J.

December 2021

Liquid metal (LM) divertors are considered for the European DEMO reactor, because they may offer imp...

A study on hydrogen isotopes transport in a liquid metal GaInSn by plasma-driven permeation method

Hailin Bi
Yoshi Hirooka
Juro Yagi
Yue Xu

August 2017

The application of liquid metals such as gallium, tin and lithium as plasma-facing materials is a po...

Liquid metals as a divertor plasma facing material explored using the Pilot-PSI and Magnum-PSI linear devices

Morgan, T. W.
Rindt, P.
van Eden, G. G.
Kvon, V.
Jaworski, M. A.
Cardozo, N. J. Lopes

January 2018

Abstract For DEMO and beyond liquid metal plasma facing components are considered due to their resil...

Effect of lithium vapour shielding on hydrogen plasma parameters

F. Romano
P. Rindt
J. Scholten
Y. Hayashi
T.W. Morgan

January 2021

A liquid Li vapour-box divertor is an attractive heat exhaust solution for future fusion reactors. P...

LiMeS-lab: An integrated laboratory for the development of Liquid-Metal Shield technologies for fusion reactors

Abstract

Extracted data

LiMeS-lab: An integrated laboratory for the development of Liquid-Metal Shield technologies for fusion reactors

Abstract

Extracted data

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