Open Access
Design integration of liquid surface divertors.
M.E. Rensink,Sergey Smolentsev,T.D. Rognlien,Mike Kotschenreuther,Michael A. Ulrickson,Donald F. Cowgill,B.E. Nelson,Ahmed Hassanein,Richard E. Nygren,P.J. Fogarty +9 more
- Vol. 72
TLDR
In this paper, the authors studied the issues in integrating a liquid surface divertor into a configuration based upon an advanced tokamak, specifically the ARIES-RS configuration, where the simplest form of such a divertor is to extend the flow of the liquid first wall into the divertor and thereby avoid introducing additional fluid streams.Abstract:
The US Enabling Technology Program in fusion is investigating the use of free flowing liquid surfaces facing the plasma. We have been studying the issues in integrating a liquid surface divertor into a configuration based upon an advanced tokamak, specifically the ARIES-RS configuration. The simplest form of such a divertor is to extend the flow of the liquid first wall into the divertor and thereby avoid introducing additional fluid streams. In this case, one can modify the flow above the divertor to enhance thermal mixing. For divertors with flowing liquid metals (or other electrically conductive fluids) MHD (magneto-hydrodynamics) effects are a major concern and can produce forces that redirect flow and suppress turbulence. An evaluation of Flibe (a molten salt) as a working fluid was done to assess a case in which the MHD forces could be largely neglected. Initial studies indicate that, for a tokamak with high power density, an integrated Flibe first wall and divertor does not seem workable. We have continued work with molten salts and replaced Flibe with Flinabe, a mixture of lithium, sodium and beryllium fluorides, that has some potential because of its lower melting temperature. Sn and Sn-Li have also been considered, and themore » initial evaluations on heat removal with minimal plasma contamination show promise, although the complicated 3D MHD flows cannot yet be fully modeled. Particle pumping in these design concepts is accomplished by conventional means (ports and pumps). However, trapping of hydrogen in these flowing liquids seems plausible and novel concepts for entrapping helium are also being studied.« lessread more
Citations
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Interactions between Liquid-Wall Vapor and Edge Plasmas
T.D. Rognlien,M.E. Rensink +1 more
TL;DR: In this paper, the authors analyzed the influx of impurity ions to the core plasma from the vapor of liquid side-walls for a slab geometry which approximates the edge region of a reactor-size tokamak.
Thermal Control of the Liquid Lithium Divertor for NSTX (poster).
Richard E. Nygren,Henry C. Harjes,Peter Wakeland,Robert Ellis,H.W. Kugel,Robert Kaita,L. Berzak,Leonid Zahkarov,Brian Ehrhart +8 more
TL;DR: The liquid lithium divertoron (LLD) as discussed by the authors has four toroidal panels, each a conical section inclined at 22° like the previous graphite divertor tiles.
Force Field Development and Validation for Liquid Metal Plasma-Facing Materials
TL;DR: In this article, embedded-atom method force fields for lithium and tin were compared to experimental and first-principles data in order to assess their ability to predict properties of liquid metal plasma-facing materials.
References
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Journal ArticleDOI
Exploring novel high power density concepts for attractive fusion systems
TL;DR: New and ‘revolutionary’ concepts that can provide the capability to efficiently extract heat from systems with high neutron and surface heat loads while satisfying all the FPT functional requirements and maximizing reliability, maintainability, safety, and environmental attractiveness are explored.
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Deuterium retention in liquid lithium
TL;DR: In this article, the authors measured deuterium retention in samples of lithium exposed in the liquid state to deutium plasma using thermal desorption spectrometry and found that full uptake was consistent with the full uptake of all ion incident on the liquid metal surface and was independent of the temperature of liquid lithium over the range explored.
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Liquid metals as alternative solution for the power exhaust of future fusion devices: status and perspective
J. W. Coenen,G. De Temmerman,G. Federici,V. Philipps,Gennady Sergienko,G. Strohmayer,Alexis Terra,B. Unterberg,T. Wegener,D. C. M. Van den Bekerom +9 more
TL;DR: In this article, tin (Sn), gallium (Ga), and aluminum (Al) are discussed as alternatives for plasma-facing components for fusion power-exhaust, potentially allowing higher operating temperatures without strong evaporation.
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Eddy diffusivity near the free surface of open channel flow
TL;DR: In this article, a new model is developed, assuming that the damping of turbulence near the surface can be represented by that of the surface wave motion with a wave length equal to the integral scale of turbulence.
Journal ArticleDOI
Modeling of sputtering erosion/redeposition—status and implications for fusion design
TL;DR: In this paper, the authors present a review of sputtering erosion/redeposition modeling for plasma facing surfaces and present an example analysis for erosion of a liquid tin fusion reactor divertor.