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

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...

Modeling of Spherical Torus Plasmas for Liquid Lithium Wall Experiments

Kaita, R.
Jardin, S.
Jones, B.
Kessel, C.
Majeski, R.
Spaleta, J.
Woolley, R.
Zakharo, L.
Nelson, B.
Ulrickson, M.

January 2002

Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...

Flow control and associated technologies to advance the application of TEMHD-driven liquid lithium in fusion devices

Szott, Matthew Michael

December 2016

As the fusion research community trends toward building larger and hotter devices, evidence points t...

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...

Plasma Performance Improvements with Liquid Lithium Limiters in CDX-U

Majeski, R.
Boaz, M.
Hoffman, D.
Jones, B.
Kaita, R.
Kugel, H.
Munsat, T.
Spaleta, J.
Soukhanovskii, V.
Timberlake, J.
Zakharov, L.
Antar, G.
Doerner, R.
Luckhardt, S.
Conn, R.W.
Finkenthal, M.
Stutman, D.
Maingi, R.
Ulrickson, and M.

July 2002

The use of flowing liquid lithium as a first wall for a reactor has potentially attractive physics a...

Magnetic Diagnostics for the Lithium Tokamak eXperiment

L. Berzak, R. Kaita, T. Kozub, R. Majeski, and L. Zakharov

June 2008

The Lithium Tokamak eXperiment (LTX) is a spherical tokamak with R0 = 0.4m, a = 0.26m, BTF ∼ 3.4kG, ...

Liquid Lithium Limiter Experiments in CDX-U

Majeski, R.
Jardin, S.
Kaita, R.
Gray, T.
Marfuta, P.
Spaleta, J.
Timberlake, J.
Zakharov, L.
Antar, G.
Doerner, R.
Luckhardt, S.
Seraydarian, R.
Soukhanovskii, V.
Maingi, R.
Finkenthal, M.
Stutman, D.
Rodgers, D.

October 2004

Recent experiments in the Current Drive Experiment-Upgrade provide a first-ever test of large area l...

Testing of Liquid Lithium Limiters in CDX-U

Majeski, R.
Kaita, R.
Boaz, M.
Efthimion, P.
Gray, T.
Jones, B.
Hoffman, D.
Kugel, H.
Menard, J.
Munsat, T.
Post-Zwicker, A.
Soukhanovskii, V.
Spaleta, J.
Taylor, G.
Timberlake, J.
Woolley, R.
Zakharov, L.
Finkenthal, M.
Stutman, D.
Antar, G.
Doerner, R.
Luckhardt, S.
Seraydarian, R.
Maingi, R.
Maiorano, M.
Smith, S.
Rodgers, D.

July 2004

Part of the development of liquid metals as a first wall or divertor for reactor applications must i...

Liquid Lithium Wall Experiments in CDX-U

D. Mansfield
A D. Stutman
C R. Woolley
A L. Zakharov
S. Zweben A

October 2016

The concept of a flowing lithium first wall for a fusion reactor may lead to a significant advance i...

Upgrades toward high-heat flux, liquid lithium plasma-facing components in the NSTX-U

Jaworski, M.A.
Brooks, A.
Kaita, R.
Lopes-Cardozo, N.J.
Menard, J.E.
Ono, M.
Rindt, P.
Tresemer, K.

November 2016

Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...

Flowing liquid lithium plasma-facing components – Physics, technology and system analysis of the LiMIT system

D.N. Ruzic
M. Szott
C. Sandoval
M. Christenson
P. Fiflis
S. Hammouti
K. Kalathiparambil
I. Shchelkanov
D. Andruczyk
R. Stubbers
C. Joel Foster
B. Jurczyk

August 2017

The use of low atomic number liquid metals has been shown to have the potential to solve many of the...

Enhanced energy confinement and performance in a low-recycling tokamak,

R Majeski
R Doerner
T Gray
R Kaita
R Maingi
D Mansfield
J Spaleta
V Soukhanovski
J Timberlake
L Zakharov
R Majeski
R Doerner
T Gray
R Kaita
R Maingi
D Mansfield
J Spaleta
V Soukhanovski
J Timberlake
L Zakharov

January 2006

ABSTRACT Extensive lithium wall coatings and liquid lithium plasma-limiting surfaces reduce recyclin...

Liquid Metal Walls, Lithium, And Low Recycling Boundary Conditions In Tokamaks

Majeski, R.

January 2010

At present, the only solid material believed to be a viable option for plasma-facing components (PFC...

Particle Control and Plasma Performance in the Lithium Tokamak Experiment (LTX)

Majeski, Richard Majeski
Abrams, T.
Boyle, D.
Granstedt, E.
Hare, J.
Jacobson, C. M.
Kaita, R.
Kisub, T.
LeBlanc, B.
Lundberg, D. P.
Lucia, M.
Merino, E.
Schmitt, J.
Stotler, D.
Biewer, T. M.
Canik, J. M.
Gray, T. K.
Maingi, R.
McLean, A. G.
Kubota, S.
Peebles, W. A.
Beirsdorfer, P.
Clementson, J. H. T.
Tritz, K.

February 2013

The Lithium Tokamak eXperiment (LTX) is a small, low aspect ratio tokamak, which is fitted with a st...

Physics Design Requirements for the National Spherical Torus Experiment Liquid Lithium Divertor

Kugel, W.
Bell, M.
Berzak,L.
Brooks, A.
Ellis, R.
Gerhardt, S.
Harjes, H.
Kaita, R.
Kallman, J.
Maingi, R.
Majeski, R.
Mansfield, D.
Menard, J.
Nygren,R. E.
Soukhanovskii, V.
Stotler, D.
Wakeland, P.
E., Zakharov L.

September 2008

Recent NSTX high power divertor experiments have shown significant and recurring benefits of solid l...

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...

Modeling of Spherical Torus Plasmas for Liquid Lithium Wall Experiments

Kaita, R.
Jardin, S.
Jones, B.
Kessel, C.
Majeski, R.
Spaleta, J.
Woolley, R.
Zakharo, L.
Nelson, B.
Ulrickson, M.

January 2002

Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...

Flow control and associated technologies to advance the application of TEMHD-driven liquid lithium in fusion devices

Szott, Matthew Michael

December 2016

As the fusion research community trends toward building larger and hotter devices, evidence points t...

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...

Plasma Performance Improvements with Liquid Lithium Limiters in CDX-U

Majeski, R.
Boaz, M.
Hoffman, D.
Jones, B.
Kaita, R.
Kugel, H.
Munsat, T.
Spaleta, J.
Soukhanovskii, V.
Timberlake, J.
Zakharov, L.
Antar, G.
Doerner, R.
Luckhardt, S.
Conn, R.W.
Finkenthal, M.
Stutman, D.
Maingi, R.
Ulrickson, and M.

July 2002

The use of flowing liquid lithium as a first wall for a reactor has potentially attractive physics a...

Magnetic Diagnostics for the Lithium Tokamak eXperiment

L. Berzak, R. Kaita, T. Kozub, R. Majeski, and L. Zakharov

June 2008

The Lithium Tokamak eXperiment (LTX) is a spherical tokamak with R0 = 0.4m, a = 0.26m, BTF ∼ 3.4kG, ...

Liquid Lithium Limiter Experiments in CDX-U

Majeski, R.
Jardin, S.
Kaita, R.
Gray, T.
Marfuta, P.
Spaleta, J.
Timberlake, J.
Zakharov, L.
Antar, G.
Doerner, R.
Luckhardt, S.
Seraydarian, R.
Soukhanovskii, V.
Maingi, R.
Finkenthal, M.
Stutman, D.
Rodgers, D.

October 2004

Recent experiments in the Current Drive Experiment-Upgrade provide a first-ever test of large area l...

Testing of Liquid Lithium Limiters in CDX-U

Majeski, R.
Kaita, R.
Boaz, M.
Efthimion, P.
Gray, T.
Jones, B.
Hoffman, D.
Kugel, H.
Menard, J.
Munsat, T.
Post-Zwicker, A.
Soukhanovskii, V.
Spaleta, J.
Taylor, G.
Timberlake, J.
Woolley, R.
Zakharov, L.
Finkenthal, M.
Stutman, D.
Antar, G.
Doerner, R.
Luckhardt, S.
Seraydarian, R.
Maingi, R.
Maiorano, M.
Smith, S.
Rodgers, D.

July 2004

Part of the development of liquid metals as a first wall or divertor for reactor applications must i...

Liquid Lithium Wall Experiments in CDX-U

D. Mansfield
A D. Stutman
C R. Woolley
A L. Zakharov
S. Zweben A

October 2016

The concept of a flowing lithium first wall for a fusion reactor may lead to a significant advance i...

Upgrades toward high-heat flux, liquid lithium plasma-facing components in the NSTX-U

Jaworski, M.A.
Brooks, A.
Kaita, R.
Lopes-Cardozo, N.J.
Menard, J.E.
Ono, M.
Rindt, P.
Tresemer, K.

November 2016

Liquid metal plasma-facing components (PFCs) provide numerous potential advantages over solid-materi...

Flowing liquid lithium plasma-facing components – Physics, technology and system analysis of the LiMIT system

D.N. Ruzic
M. Szott
C. Sandoval
M. Christenson
P. Fiflis
S. Hammouti
K. Kalathiparambil
I. Shchelkanov
D. Andruczyk
R. Stubbers
C. Joel Foster
B. Jurczyk

August 2017

The use of low atomic number liquid metals has been shown to have the potential to solve many of the...

Enhanced energy confinement and performance in a low-recycling tokamak,

R Majeski
R Doerner
T Gray
R Kaita
R Maingi
D Mansfield
J Spaleta
V Soukhanovski
J Timberlake
L Zakharov
R Majeski
R Doerner
T Gray
R Kaita
R Maingi
D Mansfield
J Spaleta
V Soukhanovski
J Timberlake
L Zakharov

January 2006

ABSTRACT Extensive lithium wall coatings and liquid lithium plasma-limiting surfaces reduce recyclin...

Liquid Metal Walls, Lithium, And Low Recycling Boundary Conditions In Tokamaks

Majeski, R.

January 2010

At present, the only solid material believed to be a viable option for plasma-facing components (PFC...

Particle Control and Plasma Performance in the Lithium Tokamak Experiment (LTX)

Majeski, Richard Majeski
Abrams, T.
Boyle, D.
Granstedt, E.
Hare, J.
Jacobson, C. M.
Kaita, R.
Kisub, T.
LeBlanc, B.
Lundberg, D. P.
Lucia, M.
Merino, E.
Schmitt, J.
Stotler, D.
Biewer, T. M.
Canik, J. M.
Gray, T. K.
Maingi, R.
McLean, A. G.
Kubota, S.
Peebles, W. A.
Beirsdorfer, P.
Clementson, J. H. T.
Tritz, K.

February 2013

The Lithium Tokamak eXperiment (LTX) is a small, low aspect ratio tokamak, which is fitted with a st...

Physics Design Requirements for the National Spherical Torus Experiment Liquid Lithium Divertor

Kugel, W.
Bell, M.
Berzak,L.
Brooks, A.
Ellis, R.
Gerhardt, S.
Harjes, H.
Kaita, R.
Kallman, J.
Maingi, R.
Majeski, R.
Mansfield, D.
Menard, J.
Nygren,R. E.
Soukhanovskii, V.
Stotler, D.
Wakeland, P.
E., Zakharov L.

September 2008

Recent NSTX high power divertor experiments have shown significant and recurring benefits of solid l...

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...

Modeling of Spherical Torus Plasmas for Liquid Lithium Wall Experiments

Kaita, R.
Jardin, S.
Jones, B.
Kessel, C.
Majeski, R.
Spaleta, J.
Woolley, R.
Zakharo, L.
Nelson, B.
Ulrickson, M.

January 2002

Liquid metal walls have the potential to solve first-wall problems for fusion reactors, such as heat...

Flow control and associated technologies to advance the application of TEMHD-driven liquid lithium in fusion devices

Szott, Matthew Michael

December 2016

As the fusion research community trends toward building larger and hotter devices, evidence points t...

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

Abstract

Extracted data

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

Abstract

Extracted data

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