Two-dimensional simulation of fast gas heating in an atmospheric pressure streamer discharge and humidity effects

Atsushi Komuro; Ryo Ono

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Two-dimensional simulation of fast gas heating in an atmospheric pressure streamer discharge and humidity effects

机译：大气压拖缆中气体快速加热的二维模拟及湿度效应

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Gas heating in an atmospheric-pressure streamer discharge was analysed by a two-dimensional streamer discharge simulation model describing internal molecular energy transfer. Our two-dimensional streamer simulation model incorporates concepts from the fast gas heating mechanism proposed by Popov (2011 J. Phys. D: Appl. Phys. 44 285201) and our self-developed state-to-state vibrational kinetics. In dry air, gas heating occurs mainly from electron-impact dissociation reactions of O_2 molecules and from quenching processes of electronically excited N_2(B ~3∏_g, C ~3∏_u) molecules and O(~1D) atoms. In humid air, rapid vibration-to-translation transitions of H_2O and the exothermicity of the OH formation reactions additionally increase the gas temperature. It is shown that gas heating during the discharge pulse increases with humidity.

机译：通过描述内部分子能量转移的二维流光放电模拟模型分析了大气压流光放电中的气体加热。我们的二维流光模拟模型结合了Popov（2011 J. Phys。D：Appl。Phys。44 285201）提出的快速气体加热机制以及我们自行开发的状态间振动动力学的概念。在干燥的空气中，气体加热主要来自O_2分子的电子碰撞解离反应以及电子激发的N_2（B〜3∏_g，C〜3∏_u）分子和O（〜1D）原子的猝灭过程。在潮湿的空气中，H_2O的快速振动-平移转变和OH形成反应的放热性进一步增加了气体温度。结果表明，放电脉冲期间的气体加热随着湿度的增加而增加。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |2014年第15期|共13页
作者
Atsushi Komuro; Ryo Ono;
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streamer discharge; numerical simulation; radical production; gas heating; chemical reaction;

机译：流光放电数值模拟自由基产生煤气加热化学反应;

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1. Two-dimensional simulation of fast gas heating in an atmospheric pressure streamer discharge and humidity effects [J] . Atsushi Komuro, Ryo Ono Journal of Physics, D. Applied Physics: A Europhysics Journal . 2014,第15期

机译：大气压拖缆中气体快速加热的二维模拟及湿度效应
2. Behaviour of OH radicals in an atmospheric-pressure streamer discharge studied by two-dimensional numerical simulation [J] . Komuro A., Ono R., Oda T. Journal of Physics, D. Applied Physics: A Europhysics Journal . 2013,第17期

机译：用二维数值模拟研究大气压流光放电中OH自由基的行为
3. Slow Gas Heating Process in an Atmospheric- Pressure Streamer Discharge Visualized by High-Speed Schlieren Method [J] . Komuro Atsushi, Tsukada Hota, Ando Akira IEEE Transactions on Plasma Science . 2019,第2期

机译：高速Schlieren方法可视化大气压拖缆放电中的缓慢气体加热过程
4. Gas heating and shockwave effects on microwave streamer development in atmospheric pressure air [C] . Kourtzanidis K., Rogier F., Boeuf J.P. IEEE International Conference on Plasma Sciences . 2015

机译：气体加热和冲击波对大气压空气中微波拖缆发展的影响
5. Two-dimensional numerical study of the atmospheric pressure glow discharges controlled by dielectric barriers in helium. [D] . Zhang, Peng. 2005

机译：氦气中介电势垒控制的大气压辉光放电的二维数值研究。
6. Fast gas heating in N2/O2 mixtures under nanosecond surface dielectric barrier discharge: the effects of gas pressure and composition [O] . M. M Nudnova, S. V Kindysheva, N. L Aleksandrov, -1

机译：纳秒表面介电势垒放电下N2 / O2混合物中的快速气体加热：气体压力和组成的影响
7. Fast gas heating in nitrogen–oxygen discharge plasma: II. Energy exchange in the afterglow of a volume nanosecond discharge at moderate pressures [O] . E I Mintoussov, S J Pendleton, F G Gerbault, 2011

机译：氮气排出等离子体中快速气体加热：II。在中等压力下纳秒放电余量的能量交换
8. Investigation of Nonstationary Modes of Atmospheric Pressure Needle-to- Plane Gas Discharge and Streamer Propagation. [R] . Golota, V., Zavada, L., Kadolin, B., 2003

机译：大气压针对平面气体放电和流光传播的非平稳模式研究。

Two-dimensional simulation of fast gas heating in an atmospheric pressure streamer discharge and humidity effects

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