电感耦合大气压等离子体的时空分析

A. Gulec, F. Bozduman, L. Oksuz, A. Hala
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引用次数: 0

摘要

用13.56 MHz的射频功率获得了常压电感耦合等离子体。一个3转铜线圈缠绕在石英管140毫米长,16毫米内径。将9毫米钨丝插入管中作为点火器并接地。作为初步的实验研究,利用光学发射光谱(OES)获得了氩等离子体的电子温度和密度值。在本研究中,COMSOL将对不同氩气流量和射频功率值下的大气压力进行ICP模拟。用实验结果对电子温度和等离子体密度进行比较。并对这些参数进行了时空评价。将讨论等离子体参数对射频周期的依赖性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Temporal And Spatial Analysis Of Inductively Coupled Atmospheric Pressure Plasma
An atmospheric pressure inductively coupled plasma (ICP) was obtained by 13.56 MHz rf power. A 3 turn copper coil wrapped around a quartz tube 140 mm length and 16 mm inner diameter. 9 mm tungsten wire was inserted into the tube as an igniter and grounded. As a preliminary experimental study, the optical emission spectroscopy (OES) was used to obtain the electron temperature and density values of the argon plasma. In this study the atmospheric pressure ICP simulation will be carried out by COMSOL at different flow rate of argon and rf power values. The electron temperature and the density of plasma will be compared by the experimental results. Also the spatio-temporal evaluation of these parameters will be given. Rf cycle dependency of plasma parameters will be discussed.
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