Oxidation of carbon deposits as a fuel removal technique for application in fusion devices
Author:
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference56 articles.
1. Plasma-material interactions in current tokamaks and their implications for next step fusion reactors
2. Formation of deuterium–carbon inventories in gaps of plasma facing components
3. Comparison of tritium retention and carbon deposition in JET and JT-60U
4. Hydrogen isotopes retention in JT-60U
5. Treatment of ITER plasma facing components: Current status and remaining open issues before ITER implementation
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1. Thermogravimetric Oxidation Analyses of Carbon Tokamak Codeposits and Flakes;Fusion Science and Technology;2021-05-04
2. Deuterium Removal from W-Doped Carbon Films by Thermo-Oxidation;Fusion Science and Technology;2018-01-22
3. Thermo-oxidation of laboratory-produced undoped and W-doped carbon films: A reaction product analysis;Nuclear Materials and Energy;2017-08
4. Gasification and removal of carbon materials and redeposited boron–carbon layers exposed in an oxygen–ozone mixture;Bulletin of the Russian Academy of Sciences: Physics;2016-02
5. Fundamental processes of fuel removal by cyclotron frequency range plasmas and integral scenario for fusion application studied with carbon co-deposits;Journal of Nuclear Materials;2015-08
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