2006
DOI: 10.1016/j.fusengdes.2005.08.101
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JUPITER-II molten salt Flibe research: An update on tritium, mobilization and redox chemistry experiments

Abstract: International Symposium on Fusion Nuclear Technology This is a preprint of a paper intended for publication in a journal or proceedings. Since changes may be made before publication, this preprint should not be cited or reproduced without permission of the author. This document was prepared as an account of work sponsored by an agency of the United States Government.

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Cited by 52 publications
(41 citation statements)
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“…To use vanadium alloy for structure materials and water or helium coolant has a problem from the viewpoint of compatibility [5]. A key issue associated with the use of Flibe is the control of tritium permeation and structure material corrosion, technologies for coating as tritium permeation barrier and reduction of impurities in the coolant or anti-corrosion coating would be required to solve the issue [6,7]. The development of materials and technologies to solve the compatibility and tritium permeation problems would be important for realization of the proposal blanket concept.…”
Section: Resultsmentioning
confidence: 99%
“…To use vanadium alloy for structure materials and water or helium coolant has a problem from the viewpoint of compatibility [5]. A key issue associated with the use of Flibe is the control of tritium permeation and structure material corrosion, technologies for coating as tritium permeation barrier and reduction of impurities in the coolant or anti-corrosion coating would be required to solve the issue [6,7]. The development of materials and technologies to solve the compatibility and tritium permeation problems would be important for realization of the proposal blanket concept.…”
Section: Resultsmentioning
confidence: 99%
“…There is no appreciable thermodynamic driver for corrosion of the alloys by molten fluorides to any significant extent. Therefore, pure molten fluoride salts will not react with the components of containment alloys [Grimes 1967, Sridharan et al 2008, Haubenreich and Engel 1970, Kondo et al 2009a, Kondo et al 2009b, Petti et al 2006, Baes 1974]. The principles and mechanisms pertinent to fluoride salts are analogous to some degree for chloride salts.…”
Section: Corrosion By the Molten Saltmentioning
confidence: 99%
“…With very low levels of contaminants in molten salts, corrosion by contaminants will be selflimiting, ceasing when the impurities have been expended or the solubility limits of the transition metal fluorides in the molten salt are reached. However, persistent sustained corrosion is possible if oxidants such as water or oxides are continuously replenished by leakage into the system, or if a component of the system is also an oxidant [Ozeryanaya 1985, Sridharan et al 2008, Haubenreich and Engel 1970, Kondo et al 2009a, Kondo et al 2009b, Petti et al 2006, Williams et al 2003]. …”
Section: Corrosion By the Molten Saltmentioning
confidence: 99%
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“…Metallic beryllium contact has been shown to effectively reduce tritium fluoride in FLiBe. 34 Providing excess beryllium in the salt has been estimated to enable keeping the FLiBe tritium fluoride concentration below 20 ppt. 35 Tritium fluoride can also be decomposed by electrolyzing the melt at lower voltage than would be necessary to decompose the salt (either FLiBe or KF-ZrF 4 ).…”
Section: Temperature (°C)mentioning
confidence: 99%