"5"^^ . . "I, P(GAP205/11/2070)" . "RIV/61389021:_____/13:00399686" . "Hrabovsk\u00FD, Milan" . "RIV/61389021:_____/13:00399686!RIV14-AV0-61389021" . "Kavka, Tetyana" . . "3"^^ . . "Investigation of Subsonic-Supersonic Hybrid-Stabilized Argon-Water Electric Arc With Inhomogeneous Mixing of Plasma Species: Parametric Numerical Study of Turbulence(AFI2013)" . "hybrid-stabilized electric arc; partial characteristics; mass flow rate; Large-eddy simulation; the Smagorinsky sub-grid scale model"@en . . "Investigation of Subsonic-Supersonic Hybrid-Stabilized Argon-Water Electric Arc With Inhomogeneous Mixing of Plasma Species: Parametric Numerical Study of Turbulence(AFI2013)"@en . . . . "Investigation of Subsonic-Supersonic Hybrid-Stabilized Argon-Water Electric Arc With Inhomogeneous Mixing of Plasma Species: Parametric Numerical Study of Turbulence(AFI2013)" . . . . . . . "81123" . "P\u0159edneseno na:13th International Symposium on Advanced Fluid Information (AFI 2013),Sendai,25.11\u201327.11.2013: The paper presents numerical simulations of the discharge and near outlet regions of the hybrid-stabilized argon-water electric arc. Calculations were carried out for the assumption of laminar and turbulent plasma flow models respectively. Results of calculations for currents 300-600 A show that the influence of turbulence is weak and the maximum difference for all the monitored physical quantities is less than 2%. Comparison with available experimental radial temperature profiles exhibits good agreement." . "Investigation of Subsonic-Supersonic Hybrid-Stabilized Argon-Water Electric Arc With Inhomogeneous Mixing of Plasma Species: Parametric Numerical Study of Turbulence(AFI2013)"@en . . "Nishiyama, H." . "Jeni\u0161ta, Ji\u0159\u00ED" . . . "P\u0159edneseno na:13th International Symposium on Advanced Fluid Information (AFI 2013),Sendai,25.11\u201327.11.2013: The paper presents numerical simulations of the discharge and near outlet regions of the hybrid-stabilized argon-water electric arc. Calculations were carried out for the assumption of laminar and turbulent plasma flow models respectively. Results of calculations for currents 300-600 A show that the influence of turbulence is weak and the maximum difference for all the monitored physical quantities is less than 2%. Comparison with available experimental radial temperature profiles exhibits good agreement."@en . . "[95ACE6E3098B]" . "Kavka, Tetyana" . "Takana, H." . . . .