SU1182177A1 - Apparatus for coagulating dust - Google Patents

Abstract

A DEVICE FOR COAGULATION OF DUST, including a dielectric chamber made of electrification and metal plates coated with a dielectric layer, a section kmtsi the dropping electrification chamber into longitudinal channels, in order to increase the efficiency of dust particles coagulation by increasing the degree of electrification, the electrification chamber is equipped installed at equal distance in front of the metal plates by the corona electrodes, while the metal plates are equipped with devices for deflecting ulovlennvEs audio and removal of dust particles, which are obliquely fixed on both sides of each plate toward the dust flow, the ratio of the distances between the plates and between the electrodes is determined from the expression matema9t cally 5 0.6. 1 b S distance between metal plates, m; h is the distance between the electrodes, m. 1C 7 t ×

Description

11 The invention relates to the mining industry and can be used to coagulate and trap highly dispersed drums during various technological processes. The purpose of the invention is to increase the efficiency of coagulation of the pievs: parts by increasing their degree of electrification. Fig; 1 shows a device for coagulating dust, top view; in fig. 2 shows section A-A in FIG. 1, A dust coagulation device consists of an electrification chamber 1 made of a dielectric, having an inlet 2 and an outlet 3 nozzles, a system of metal plates 4, covered on both sides with a wind-repellent dielectric and forming longitudinal channels, each of which has 4 plates has on both sides obliquely mounted devices 5 and 6 (plates, troughs, etc.) opposite to the flow for deflecting and discharging dust, the inner surface of which is covered with a dust-closing dielectric, and corona needle electrodes 7, installed from the plates 4 at the same distance, the ratio of the distance between the metal plates 4 and the interelectrode is 0.6–1, for the full and maximum charge of all impurities of the contaminated flow with their subsequent coagulation. In the lower part of the electrification chamber 1, a bunker 8 is installed. In the second half of electrification chamber 1, the same systems of metal plates 4 and corona needles of needle electrodes 7, displaced by a distance of 2/2 in the direction perpendicular to the axis of electrification 1, are installed to coagulate uncoagulated impurities flow. The device works as follows. . When a negative potential is applied to the corona needle electrodes 7 and to the systems of metal plates of a positive potential of a straightened high voltage, a non-uniform electric field is created in the interelectrode space (the magnitude of the tension at the tip of the needle is deformed than in the cavity between the needle, with a concentration equal to 90% of the power of the corona discharge on the corona needles), while the corona discharge with the concentration of ions in the flare of the crown of the tip is 10 in 1 cm of air at minimum electrical Sgiach cost. The dust particles and air molecules that get into the corona discharge plume are charged, ionized and transported in the direction of the channels of the system of metal plates 4 as a result of electric wind, while electrons, ions and uncharged particles interact with their intense coagulation. Getting into the channels between the airborne suspension plates 4 and the charged particles, moving along them, reach devices 5 and 6, which ensure transportation of trapped dust particles into the hopper 8. The flow changes its direction, coming from devices 5 and 6 Moreover, fixing them on both sides of each plate 4 towards. the flow allows to reject such a part of it, that the impurities in it collide with particles flowing in the straight line direction, coagulate with them due to the forces of the ponderomotive interaction of the particles and are deflected by the inertial forces towards the adjacent metal plate 4. And near the particles are affected by the force of the electric field (negatively charged particles and the plate at a positive potential), resulting in particles coming into contact with the metal plate 4 and due to electric winds are transported along it, fall into device 5 or 6, and then flow along them into the bunker 8. The greater the intensity of the electric field in the interelectrode space, the higher the efficiency of coagulation of particles. The electric field strength is 67 kV / cm and is determined by the value of the supply voltage and the interelectrode distance. The supply voltage is 10-15 kV, and the interelectrode distance is 18-22 mm. Execution in the design of the ratio of the distance between the plates and the interelectrode 0.6 - 1 and the placement of the deflecting devices 5 and 6 obliquely fixed on both sides of each plate upwards31

This allows the flow in the interelectrode space to receive a curtain from the crown torch, with the accompanying directional electric wind, and also to receive directional vortices in the channels between the plates. perpendicular to the flow, which contributes to the strengthening of the strength of the pondermotor1821774

interaction, force, electrostatic field and electric wind force, which contributes to the intensification of the coagulation process in the channels between the plates, resulting in large aerospace, suspended by inclining deflection devices in the bunker.

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Claims (1)

DEVICE FOR COAGULATION OF DUST, including an electrification chamber made of a dielectric and coating with a layer of dielectric metal plates dividing said electrification chamber into longitudinal channels, characterized in that, in order to increase the coagulation efficiency of dust particles by increasing the degree of electrification, the electrification chamber is equipped with at an equal distance in front of the metal plates by the corona electrodes, while the metal plates are equipped with devices for deflecting and water captured dust particles that are obliquely mounted on both sides of each plate towards the dust stream, and the ratio of the distances between the plates and between the electrodes is determined from the mathematical expression 0.6 ". 1, where b is the distance between the metal plates, m; h is the distance between the electrodes, m 5 f