Author:
Lozin A.V.,Kovtun Yu.V.,Moiseenko V.E.,Maznichenko S.M.,Baron D.I.,Kozulya M.M.,Krasyuk A.Yu.,Listopad V.M.,Gribanov V.Yu.,Martseniuk Yu.P.
Abstract
Gas mixture system (GMS) was developed, created and installed at Uragan-2M (U-2M) device. GMS is based on already known gas mixing method successive puffing. It is implemented through successive puffing of several gases from separate high pressure cylinders into working volume. A number of experiments were carried out to create a He+H2 gas mixture with different percentages. The results of measurements of the He+H2 percentage in the GMS and the U-2M vacuum chamber are in good agreement each to other. This system allows you to change the pressure of the mixture in the U-2M chamber at a constant percentage of gases in the mixture.
Publisher
Problems of Atomic Science and Technology
Reference15 articles.
1. J. Schacht et al. Piezo-valve controller for the gas inlet system of the fusion experiment Wendelstein 7-X // Fusion Engineering and Design. 2012, v. 87, № 12, p. 1961-1966.
2. G. Bonizzoni et al. The vacuum and gas inlet systems for the RFX fusion experiment // Vacuum. 1990, v. 41, № 4-6, p. 1503-1507.
3. J. Schacht et al. The gas supply and gas inlet control systems of the fusion experiment Wendelstein 7-X // Fusion Engineering and Design. 2018, v. 129, p. 6-11.
4. V.E. Moiseenko et al. Progressin stellarator research at IPP-Kharkov // Nukleonika. 2016, v. 61, № 2, p. 91-97.
5. A.V. Lozin et al. Wall conditioning discharges driven by t-shaped antenna in Uragan-2M // Problems of Atomic Science and Technology. 2018, № 6, p. 50-53.
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