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| 基于N+2(B2∑+u→X2∑+g)的电弧等离子体振动温度和转动温度测量 | |
| 引用本文: | 屠昕,严建华,马增益,李晓东,潘新潮,岑可法,CHERON Bruno.基于N+2(B2∑+u→X2∑+g)的电弧等离子体振动温度和转动温度测量[J].光谱学与光谱分析,2006,26(12):2161-2165. |
| 作者姓名: | 屠昕 严建华 马增益 李晓东 潘新潮 岑可法 CHERON Bruno |
| 作者单位: | 1. 浙江大学热能工程研究所,能源清洁利用国家重点实验室,浙江,杭州,310027;UMR 6614 CNRS CORIA,Saint Etienne du Rouvray 76801,France 2. 浙江大学热能工程研究所,能源清洁利用国家重点实验室,浙江,杭州,310027 3. UMR 6614 CNRS CORIA,Saint Etienne du Rouvray 76801,France |
| 基金项目: | 国家自然科学基金 , 中-法合作项目 , 浙江省国际科技合作计划 |
| 摘 要: | 通过光谱诊断系统测量大气压直流氩氮等离子体射流的发射光谱,在光谱紫外波段观察到氮的第一负带系N 2(B2∑ u→X2∑ g),利用N 2(B2∑ u→X2∑ g)跃迁的△v=0谱带系v'=0→v"=0和v'=1→v"=1谱带,对实验测得的谱带和模拟计算得到的谱带进行点对点对比,得到了等离子体射流的振动温度和转动温度,并就仪器展宽、振动温度和转动温度对谱带结构和形状的影响进行了分析.结果表明在文章所述的实验条件下,等离子体的电子温度、振动温度、转动温度和化学动力学温度基本相等,大气压直流氩氮等离子体射流达到局域热力学平衡. |
| 关 键 词: | 电弧等离子体 光谱诊断 振动温度 转动温度 |
| 文章编号: | 1000-0593(2006)12-2161-05 |
| 收稿时间: | 2005-10-31 |
| 修稿时间: | 2006-02-15 |
Measurement of Rotational and Vibrational Temperatures in Arc Plasma Based on the First Negative System of N+2 (B2Σ+u →X2Σ+g) |
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| TU Xin,YAN Jian-hua,MA Zeng-yi,LI Xiao-dong,PAN Xin-chao,CEN Ke-fa,CHERON Bruno.Measurement of Rotational and Vibrational Temperatures in Arc Plasma Based on the First Negative System of N+2 (B2Σ+u →X2Σ+g)[J].Spectroscopy and Spectral Analysis,2006,26(12):2161-2165. | |
| Authors: | TU Xin YAN Jian-hua MA Zeng-yi LI Xiao-dong PAN Xin-chao CEN Ke-fa CHERON Bruno |
| Institution: | 1. Institute for Thermal Power Engineering, State Key Laboratory of Clean Energy Utilization, Zhejiang University, Hangzhou 310027, China 2. UMR 6614 CNRS CORIA, Saint Etienne du Rouvray 76801, France |
| Abstract: | The molecular emission spectra lines of the first negative system N2+ (B(2) sigma--> X(2) sigma ) are frequently observed in the plasma source containing nitrogen. (0-0) and (1--1) N2+ first negative system molecular bands around 391. 4 nm can be used to the measure the rotational and vibrational temperatures in a DC argon-nitrogen plasma at atmospheric pressure. The proposed method based on the comparison between this experimental emission spectrum and the computer simulated one is presented. The effect of the apparatus function, vibrational temperature and rotational temperatures on the line structure of numerical simulated spectrum is discussed. The results show that the electron temperature, rotational temperature, vibrational temperature and kinetic temperature of plasma arc are almost the same, which can be interpreted as that DC argon-nitrogen arc plasma at atmospheric pressure is in LTE under their experimental conditions. |
| Keywords: | Arc plasma Optical diagnostics Rotational temperature Vibrational temperature |
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