Electric Arc Plasma Installation with Control Information-Measuring System

2019 1st International Conference on Control Systems, Mathematical Modelling, Automation and Energy Efficiency (SUMMA) Pub Date : 2019-11-01 DOI:10.1109/SUMMA48161.2019.8947588

V. Meshcheryakov, V. Pikalov, A. Evseev, O. Danilova, S. Ambrosimov

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引用次数: 2

Abstract

We have considered the design of electric arc plasma installation, called plasmatron, with a vertical working chamber, enable the production of high-temperature plasma during the combustion of the plasma gas passing through the electric arc. The plasma torch is designed for utilization of carbon-containing wastes and slurries of processing industries. Famous electric arc plasma systems have some disadvantages, the main of which are the complexity of the design and the complexity of regulating the performance of the installation that produces plasma. The peculiarity of the proposed plasma torch is the effect of an external electromagnetic field on the arc. This allows the arc to be pulled out and out of the tubular housing. The equation describing the arc current change in dynamic modes is given. The experimental electric arc installation for plasma generation is considered, the results of experiments are analyzed. The role of the control and information-measuring system to ensure the normal operation of the installation is shown.

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电弧等离子体装置与控制信息测量系统

我们考虑了电弧等离子体装置的设计，称为等离子体发生器，具有垂直的工作腔，使等离子体气体通过电弧燃烧时产生高温等离子体。等离子炬是为加工工业中含碳废物和浆料的利用而设计的。著名的电弧等离子体系统存在一些缺点，主要是设计复杂，产生等离子体的装置性能调节复杂。所提出的等离子炬的特点是外部电磁场对电弧的影响。这使得弧线可以拉出管状外壳。给出了动态模式下电弧电流变化的方程。研究了等离子体产生实验电弧装置，并对实验结果进行了分析。说明了控制与信息测量系统在保证装置正常运行中的作用。

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2019 1st International Conference on Control Systems, Mathematical Modelling, Automation and Energy Efficiency (SUMMA)

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