Modeling of the chemical composition of DC atmospheric pressure air discharge plasma in contact with aqueous solutions of sodium dodecylbenzenesulfonate

Shutov D. A.; Smirnov S. A.; Konovalov A. S.; Ivanov A. N.

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Modeling of the chemical composition of DC atmospheric pressure air discharge plasma in contact with aqueous solutions of sodium dodecylbenzenesulfonate

机译：与十二烷基苯磺酸钠水溶液接触的直流大气压空气放电等离子体的化学成分建模

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The results of calculation of the chemical composition of plasma of the DC atmospheric pressure discharge in air in contact with aqueous solutions of sulfonol (C12H25C6H4SO3Na) in the concentration range of 0-10 g/L at a discharge current of 40 mA are presented. At modeling, the combined solution of Boltzmann equation for the electron gas, equations of vibrational kinetics for ground states of N-2, O-2, H2O, and NO molecules, equations of chemical kinetics and plasma conductivity equation were used. It was shown that sodium atoms appearing as a result of transfer processes from the liquid cathode affect the chemical composition of the plasma and the characteristics of the electron gas.

机译：给出了在40 mA的放电电流下，在浓度范围为0-10 g / L的磺酚（C12H25C6H4SO3Na）水溶液中接触空气的直流大气压放电等离子体化学成分的计算结果。在建模时，使用了电子气体的Boltzmann方程，N-2，O-2，H2O和NO分子基态的振动动力学方程，化学动力学方程和等离子体电导率方程的组合解。结果表明，由于从液态阴极的转移过程而出现的钠原子会影响等离子体的化学组成和电子气的特性。

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《High temperature: English translation of teplofizika vysokikh temperatur》 |2016年第4期|共5页
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Shutov D. A.; Smirnov S. A.; Konovalov A. S.; Ivanov A. N.;
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中图分类工程物理学;
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1. Modeling of the chemical composition of DC atmospheric pressure air discharge plasma in contact with aqueous solutions of sodium dodecylbenzenesulfonate [J] . Shutov D. A., Smirnov S. A., Konovalov A. S., High temperature: English translation of teplofizika vysokikh temperatur . 2016,第4期

机译：与十二烷基苯磺酸钠水溶液接触的直流大气压空气放电等离子体的化学成分建模
2. Decomposition of Methylene Blue in an Aqueous Solution Using a Pulsed-Discharge Plasma at Atmospheric Pressure [J] . SHIN IKOMA, KOHKI SATOH, HIDENORI ITOH Electrical engineering in Japan . 2012,第3期

机译：大气压下脉冲放电等离子体在水溶液中分解亚甲基蓝
3. Chemical transformations in sodium chloride aqueous solutions under the action of low-temperature contact glow-discharge plasma [J] . Nikolenko N.V., Pivovarov A.A., Zakharov R.I., High Energy Chemistry . 2013,第5期

机译：低温接触辉光放电等离子体在氯化钠水溶液中的化学转化
4. Degradation of aqueous safranine T solution by DC glow discharge plasma at atmospheric pressure air [C] . Fengqiu Wang, Aihua Gao, Fang Cheng International Conference on Energy, Environment and Sustainable Development . 2013

机译：大气压空气下DC辉光放电等离子体降解水溶液T溶液
5. Modeling and simulations of DC and RF atmospheric pressure non-thermal micro plasma discharges: Analysis and applications. [D] . Farouk, Tanvir Iqbal. 2009

机译：直流和射频大气压非热微等离子体放电的建模和仿真：分析和应用。
6. Inactivation of Escherichia coli Cells in Aqueous Solution by Atmospheric-Pressure N2 He Air and O2 Microplasmas [O] . Renwu Zhou, Xianhui Zhang, Zhenhua Bi, 2015

机译：大气中的N2He空气和O2血浆等离子灭活水溶液中的大肠杆菌细胞
7. Atmospheric Pressure Non-thermal Plasma for Air Purification: Ions and Ionic Reactions Induced by dc+ Corona Discharges in Air Contaminated with Acetone and Methanol [O] . Agata Giardina, Milko Schiorlin, Ester Marotta, 2020

机译：用于空气净化的大气压非热等离子体：DC +电晕诱导的离子和离子反应在用丙酮和甲醇污染的空气中排出
8. Spectrometric Studies of Sodium Perchlorate Contact Ion-Pair Formation in Aqueous Solutions [R] . Miller, A. G., Franz, J. A., Macklin, J. W. 1982

机译：水溶液中高氯酸钠接触离子对形成的光谱研究

Modeling of the chemical composition of DC atmospheric pressure air discharge plasma in contact with aqueous solutions of sodium dodecylbenzenesulfonate

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