Numerical simulation of temperature and velocity fields in plasma spray 被引量：2

Numerical simulation of temperature and velocity fields in plasma spray

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摘要 Based on the turbulence jet model, with respect to Ar-He mixture plasma gas injecting to ambient atmosphere, the temperature filed and velocity field under typical working conditions were investigated. Given the conditions of I=900 A, FAr= 1.98 m^3/h, FEe=0.85 m^3/h, it is found that both the temperature and the velocity undergo a plateau region near the nozzle exit （0-10 mm） at the very first stage, then decrease abruptly from initial 13 543 K and 778.2 m/s to 4 000 K and 260.0 m/s, and finally decrease slowly again. Meanwhile, the radial temperature and radial velocity change relatively slow. The inner mechanism for such phenomena is due to the complex violent interaction between the high-temperature and high-velocity turbulent plasma jet and the ambient atmosphere. Compared with traditional methods, the initial working conditions can be directly related to the temperature and velocity fields of the plasma jet by deriving basic boundary conditions. Based on the turbulence jet model,with respect to Ar-He mixture plasma gas injecting to ambient atmosphere,the temperature filed and velocity field under typical working conditions were investigated.Given the conditions of I=900 A,FAr= 1.98 m3/h,FHe=0.85 m3/h,it is found that both the temperature and the velocity undergo a plateau region near the nozzle exit(0～10 mm)at the very first stage,then decrease abruptly from initial 13 543 K and 778.2 m/s to 4 000 K and 260.0 m/s,and finally decrease slowly again.Meanwhile,the radial temperature and radial velocity change relatively slow.The inner mechanism for such phenomena is due to the complex violent interaction between the high-temperature and high-velocity turbulent plasma jet and the ambient atmosphere.Compared with traditional methods,the initial working conditions can be directly related to the temperature and velocity fields of the plasma jet by deriving basic boundary conditions.

作者范群波王鲁王富耻

机构地区 School of Materials Science and Engineering

出处《Journal of Central South University of Technology》 EI 2007年第4期496-499,共4页 中南工业大学学报（英文版）

基金 Project (9140A12020306BQ0117) supported by the Commission of Science Technology and Industry for National Defense Project ( 1040012040101) supported by the Excellent Young Teacher Foundation of Beijing Institute of Technology

关键词 plasma spray plasma jet temperature field velocity field 等离子体喷雾温度数字模拟技术

分类号 O539 [理学—等离子体物理]

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参考文献13

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2007年第4期

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