SU1667929A1 - Gas cleaning apparatus - Google Patents

Abstract

The invention relates to the field of protecting the atmosphere from dust and gas emissions from industrial enterprises and can be used in cleaning emissions from dust and carbonated gas components in iron ore agglomeration factories. The purpose of the invention is to increase the cleaning efficiency from dust and oxidized gases, reducing energy costs by creating a highly concentrated electric field. The corona electrode is made in the form of a perforated plate with needle electrodes, and the precipitation electrode is equipped with a dielectric plate, in which needle electrodes are fixed with a gap to the precipitation electrode. 2 Il.

Description

The invention relates to the protection of the atmosphere from dust and gas emissions from industrial enterprises and can be used in cleaning emissions from dust and carbonated components in iron ore milling factories.

The aim of the invention is to increase the efficiency of cleaning from dust and oxidizing poisonous gases, reducing the energy costs of complex cleaning of gases by creating a highly concentrated protective floor and plasma concentration by ensuring the stability of the flame-chemical process with the help of a sliding electric discharge.

FIG. 1 shows the electrode system of the working channel of the apparatus; a cross-section: in FIG. 2 — node I in FIG. one.

The electrode system of the working channel of the apparatus 1 consists of a plate perforated precipitation electrode

2, to which a dielectric perforated plate 3 is attached tightly on the side of the corona-forming electrode, with needles 5 fixed to it with a gap 4 to the precipitation electrode, and a crown and leading plate perforated electrode 6 with needles placed on one axis and directed in opposite sides are coaxial with the needles of the precipitation electrodes.

The device works as follows.

The electrode plate 6 with the corona needle elements is grounded. When a potential of positive polarity is applied from a high-voltage source (not shown) to the plate of the precipitation electrode 2, which ensures the intensity of the electric field between the needles 5 and 7, equal to (5-6) -105 V / m, in the working channel 1 the stem-diffuse ignites discharge, as a result of which the working channel is filled with plasma, creating a current density of 0.1-0.5

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A / m The independence of the processes of formation of a stem-diffuse discharge in many foci is ensured by the fact that the moto. -nfing.ie needles 5 are embedded in the dielectric plate 3 with a gap of 4 to the plate of the precipitating electrode 2 and separated each other or each other by dielectric elements. In the gap 4 between the plane 2 and the ionizing needles 5 of the specified intensity, the field generates a highly concentrated plasma sliding along the discharge surface of the discharge, i.e., each ionizing electrode is separated from the plane 4 by a sliding plasma serving as a buffer resistance the electric circuit of the stem-diffuse discharge, stabilized, this resistance and excluding the formation of a gap between the needles 5 and 7.

Using the needles 7 of the corona electrode 6, free electrons are delivered to the working channel 1, which stabilizes the parameters of the stem-diffuse discharge. The electrons also perform additional work in the working channel on the ionization of the gas and the intensification of the chemical process.

The presence of plasma and free electrons in the working gap causes the formation of a large concentration of atomic oxygen and ozone, which have chemical activity.

 gas, passage through an orifice (I perforations, are sent to the gassing zone, where, due to the significant concentration of ozone, atomic 5 plasma mi urine, plasma-chemical processes are carried out to oxidize the toxic gases) of carbon oxides, nitrogen and sulfur dioxide dust particles With the passage of dust particles through separate zones of the barrel-diffuse

the discharge is recharged in the plasma, which alternately slows down or accelerates their movement. Thus, the electric field before each regular

The perforated plate is protective against the penetration of charged dust particles through the perforation opening into the next zone of the barrel-diffuse discharge. This phenomenon also contributes significantly to the coagulation of dust particles. A sharp decrease in the flow rate at the exit from the perforation holes results in difficult passage for the coagulated particles to the next working channel.

therefore, they are guided by gravity into a dust receiving bin of the apparatus. Perforated plates also play the role of distribution grids, equalizing the flow rates over the entire cross section of the apparatus and preventing gas from passing outside the discharge zone.

Claims (1)

Claims of Apparatus Gas purification apparatus including perpendicular to flow flow plate perforated collecting and discharge electrodes with needles, characterized in that, in order to increase the cleaning efficiency gas flow from dust and oxidation of toxic gases, reducing energy costs for complex gas cleaning by creating a highly concentrated floor and plasma concentration, the needle of the corona the electrodes are placed symmetrically on both sides, and the collecting electrodes are fitted with a dielectric perforated plate tightly mounted on the side of the corona-forming electrodes, on which the needles of the precipitation electrode are fixed with a gap to it and coaxially with the needles of the corona electrode. L