Flow, Temperature and Concentration Fields in Reactive Plasmas in an Inductively Coupled RF Discharge—Characteristics in Argon-Oxygen and Argon-Nitrogen Thermal Plasmas—

Atsushi Kanzawa; Naoto Tonoike; Takayuki Watanabe; Takuya Honda

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Flow, Temperature and Concentration Fields in Reactive Plasmas in an Inductively Coupled RF Discharge—Characteristics in Argon-Oxygen and Argon-Nitrogen Thermal Plasmas—

机译：感应耦合RF放电中反应性等离子体中的流量，温度和浓度场（氩氧和氩氮热等离子体的特征）

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References(10) Cited-By(10) Numerical simulations of RF argon-oxygen and argon-nitrogen thermal plasmas under atmospheric pressure were performed. Two-dimensional continuity, momentum, energy and species equations were solved simultaneously with the electromagnetic equations by using the SIMPLER algorithm. Dissociation and recombination rates of oxygen or nitrogen in the plasmas were taken into account in the numerical model. Distributions of the plasma enthalpy and concentration were measured with a water-cooled probe. The numerical results were in good agreement with the experimental ones.The argon-oxygen plasma has a strong recirculating eddy. O2 is dissociated completely downstream from the eddy except near the tube wall. In the argon-nitrogen plasma, the mass fraction of N2 is significant even in the high-temperature region.

机译：参考文献（10）引用了（10）在大气压下对RF氩氧和氩氮热等离子体进行了数值模拟。使用SIMPLER算法同时求解了二维连续性，动量，能量和物种方程，并与电磁方程同时求解。在数值模型中考虑了血浆中氧或氮的解离和重组速率。用水冷探针测量血浆焓和浓度的分布。数值结果与实验结果吻合良好。氩氧等离子体具有很强的循环涡流。 O2完全从涡流下游解离，除了管壁附近。在氩氮等离子体中，即使在高温区域，N 2的质量分数也很大。

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《Journal of Chemical Engineering of Japan》 |1991年第1期|共页
作者
Atsushi Kanzawa; Naoto Tonoike; Takayuki Watanabe; Takuya Honda;
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入库时间 2022-08-18 16:15:58

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1. COMPUTER SIMULATION OF ARGON-NITROGEN AND ARGON-OXYGEN INDUCTIVELY COUPLED PLASMAS [J] . Cai MX., Montaser A., Mostaghimi J., Spectrochimica Acta, Part B. Atomic Spectroscopy . 1997,第3期

机译：氩氮和氩氧诱导耦合等离子体的计算机模拟
2. Modeling of the Flow, Temperature and Concentration Fields in an Arc Plasma Reactor with Argon-Nitrogen Atmosphere [J] . Agustin M. FUDOLIG, Hiroshi NOGAMI, Jun-ichiro YAGI ISIJ international . 1996,第9期

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3. Numerical study of temperature and gas flow fields in Ar-O-2 tandem-type inductively coupled thermal plasma with Ti feedstock powder injection [J] . Siregar Yulianta, Nakano Y., Tanaka Y., Journal of Physics, D. Applied Physics: A Europhysics Journal . 2019,第41期

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8. Thomson Scattering for Determining Electron Concentrations and Temperatures in an Inductively Coupled Plasma. 1. Assessment of the Technique for a Lo -Flow, Low-Power Plasma [R] . Marshall, K. A., Hieftie, G. M. 1988

机译：汤姆逊散射测定电感耦合等离子体中的电子浓度和温度。 1.低功率等离子体技术的评估

Flow, Temperature and Concentration Fields in Reactive Plasmas in an Inductively Coupled RF Discharge—Characteristics in Argon-Oxygen and Argon-Nitrogen Thermal Plasmas—

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