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Numerical Modeling of the High-Intensity Transferred Arc with a Water-Cooled Constrictor Tube 被引量:2

Numerical Modeling of the High-Intensity Transferred Arc with a Water-Cooled Constrictor Tube
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摘要 Stable and axi-symmetrical DC high-intensity transferred arcs with a coaxial water-cooled constrictor tube have been used to study the arc characteristics for many years. All the previous modeling studies concerning the high-intensity transferred arcs were restricted to the near-anode region. Modeling results are presented in this paper concerning the characteristics of the whole high-intensity transferred arc, referring to a recent experiment. It is shown that the computed flow and temperature fields for different flow rates of the working gas are overall similar, but a fully developed flow regime can only be achieved in the water-cooled constrictor tube at low working-gas flow rates. The predicted radial profiles of plasma temperature at the cross section near the constrictor-tube exit compare favorably with available experimental data, but corresponding comparison about the plasma axial-velocity profiles shows appreciable difference, revealing that there may exist considerable errors in the plasma velocity measurements using a sweeping Pitot tube. Stable and axi-symmetrical DC high-intensity transferred arcs with a coaxial water-cooled constrictor tube have been used to study the arc characteristics for many years. All the previous modeling studies concerning the high-intensity transferred arcs were restricted to the near-anode region. Modeling results are presented in this paper concerning the characteristics of the whole high-intensity transferred arc, referring to a recent experiment. It is shown that the computed flow and temperature fields for different flow rates of the working gas are overall similar, but a fully developed flow regime can only be achieved in the water-cooled constrictor tube at low working-gas flow rates. The predicted radial profiles of plasma temperature at the cross section near the constrictor-tube exit compare favorably with available experimental data, but corresponding comparison about the plasma axial-velocity profiles shows appreciable difference, revealing that there may exist considerable errors in the plasma velocity measurements using a sweeping Pitot tube.
作者 王海兴 陈熙
机构地区 Department of Engineering Mechanics
出处 《Plasma Science and Technology》 SCIE EI CAS CSCD 2005年第5期3051-3056,共6页 等离子体科学和技术(英文版)
基金 The project supported by National Natural Science Foundation of China (Nos. 50336010, 10405015, 10575127) and the ChinesePostdoctoral Science Foundation (No. 20040350044)
关键词 DC transferred arc plasma flow and heat transfer modeling DC transferred arc, plasma flow and heat transfer, modeling
分类号 TB852.1 [一般工业技术—摄影技术]
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参考文献13

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同被引文献17

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Plasma Science and Technology
2005年 第5期

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