The Influence of Turbulence on Characteristics of a Hybrid-Stabilized Argon-Water Electric Arc
スポンサーリンク
概要
- 論文の詳細を見る
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 10%. Comparison with available experiments exhibits good agreement.
著者
-
Takana Hidemasa
Institute Of Fluid Science Tohoku University
-
Nishiyama Hideya
Institute Of Fluid Science Tohoku University
-
JENIŠTA Jirí
Institute of Plasma Physics AS CR, v.v.i.
-
BARTLOVÁ Milada
Brno University of Technology
-
AUBRECHT Vladimír
Brno University of Technology
-
KRENEK Petr
Institute of Plasma Physics AS CR, v.v.i.
関連論文
- Analysis of a Methanol Decomposition Process by a Nonthermal Plasma Flow(Advanced Fusion of Functional Fluids Engineering)
- Evaluations of Ceramic Spraying Processes by Numerical Simulation
- Transient Response Simulation of Downstream Thermofluid Field in a Gas Circuit Breaker during Current Interruption(Advanced Fusion of Functional Fluids Engineering)
- Numerical Simulation of Mixing Effect on a Non-equilibrium Plasma Jet in an Applied Magnetic Field
- Performance Evaluation of Arc Ash Melting Systems by Computational Simulation
- Basic Study on an Energy Conversion System Using Gas-Liquid Two-Phase Flows of Magnetic Fluid : Analysis on the Mechanism of Pressure Rise
- Numerical Analysis on Plasma Spraying in a DC-RF Hybrid Plasma Reactor
- Numerical Simulation on Annular Hall Energy Conversion Device under Wide Range of Operating Condition(Advanced Fusion of Functional Fluids Engineering)
- Dynamic Shear Flow Behavior of Magneto-Rheological Fluid between Two Rotating Parallel Disks under Relatively Weak Magnetic Field(Advanced Fusion of Functional Fluids Engineering)
- Functionalization of a Nonequilibrium RF Induction Plasma by Gas Mixtures
- Magnetic Fluid Devices for Driving Micro Machines(Advanced Fusion of Functional Fluids Engineering)
- Computational Simulation of Arc Melting Process with Complex Interactions
- Performance Evaluation of Arc-Electrodes Systems for High Temperature Materials Processing by Computational Simulation
- On Publication of Special Issue on Advanced Fusion of Functional Fluids Engineering(Advanced Fusion of Functional Fluids Engineering)
- Control Performance of Interactions between Reactive Plasma Jet and Substrate
- The Influence of Turbulence on Characteristics of a Hybrid-Stabilized Argon-Water Electric Arc
- Micro Reciprocating Actuator Using Magnetic Fluid and Two Permanent Magnets
- Characterization of DBD Multiple Bubble Jets for Methylene Blue Decolorization