SU1583173A1 - Apparatus for power supply of electric precipitator - Google Patents

Abstract

The invention relates to the electrical cleaning of gases, can be used in various sectors of the industry and allows an increase in the degree of purification of gases. The device for powering the electrostatic precipitator contains a power supply unit 1 connected via shunt 2 to a voltage divider 4 connected in series to the disk 6 and a capacitor 5, and the electrostatic electrode 3 to the cathode of the controlled valve 7, the control input of which is connected to the output of the amplifier 8, the circuit Both 9 and two zero-organs 10, 11. At the same time, the inputs of the zero-organs 10, 11 are connected respectively to shunt 2 and voltage divider 4, and their outputs to the inputs of the AND 9 circuit, which is connected by its output to the input of amplifier 8. 1 Il .

Description

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The invention relates to the field of electrical gas cleaning and can be used in various fields of industry; The aim of the invention is to increase the degree of gas cleaning by reducing voltage pulsations.

The drawing shows the block diagram of the device.JQ

The power supply unit 1 is connected via shunt 2 to an electrostatic precipitator 3, a voltage divider 4 and a circuit formed by the series connection of the capacitor 5 and the diode 6. A counter-controlled valve 7 connected in parallel to the latter, a control input connected to the output of the amplifier 8 pulses. The input of the latter is connected to the output of circuit 9 I, connected to the outputs of threshold elements 10 and 11, connected to the output of shunt 2 and voltage divider 4

The device works as follows OM025

The unit 1 supplies the electrostatic precipitator 3 with a phase-controlled two-half-period rectified, pulsating high (10-80 kV) voltage “After the action of this voltage in the 0 electrostatic precipitator 3, the transient gas is cleaned from dust particles Electrostatic precipitator electrodes contain a significant pulsating component,. The presence of voltage dips in the voltage reduces its average value and, consequently, the degree of gas purification. In order to improve the performance, it is necessary to filter it straight out, to make it smooth. This function (filtering) is performed by capacitor 5. During periods when current flows through electrostatic precipitator 3, unit 3 is charged from electrostatic precipitator 3, which is fixed the threshold element 11. The introduction of these two interlocks to turn on the valve / excludes its inclusion at the moments of breakdown, which often occur in the electrostatic precipitator 3. With such a breakdown, the capacitor 5 would be short-circuited, which would reduce the service life of the electrostatic precipitator a. In addition, the load would increase on the capacitor, which would reduce its reliability. But the indicated reason does not make expedient and direct, parallel connection of a capacitor to an electrostatic precipitator. From this point of view, it is most expedient to perform the valve 7 with full control (with locking), for example, on the basis of an electronic valve.

The connection of the capacitor 5 to the electrostatic precipitator J for discharge in the dead time is ensured by the discharge of the capacitor 5 per electrostatic precipitator. This leads to smoothing, and consequently, increases its average level. The degree of gas purification also increases.

Claims (1)

Invention Formula A device for feeding an electrostatic precipitator containing a power unit connected via a shunt to a voltage divider, to a circuit with a series-connected diode and a capacitor connected to the output terminals and the cathode of the controlled valve, the control input of which is connected to the output of the amplifier, and the anode to the point the connection of the cathode of the diode and the capacitor, characterized in that, in order to increase the degree of gas purification by reducing the pulsations of the supersensor b through diode 6 to the amplitudes of the voltage 45, it additionally contains someone with voltage V periods when the unit 1 does not conduct current, from the inverse output of the threshold element 10 a signal is received that permits the switching on of the valve 70 the And circuit and two zero-organs, with the inputs of the zero-organs connected to the shunt and divider, respectively, and their outputs to the inputs of the And circuit possible only if there is a 50 neither connected to the entrance amplifier „ neither on the electrostatic precipitator 3, which is fixed by the threshold element 11. The introduction of these two interlocks to turn on the valve / excludes its inclusion at the moments of breakdowns that often occur in the electrostatic precipitator 3. With such breakdowns, the capacitor 5 would be short-circuited, which would shorten the time service electrostatic precipitator. In addition, the load would increase on the capacitor, which would reduce its reliability. But the indicated reason does not make expedient and direct, parallel connection of a capacitor to an electrostatic precipitator. From this point of view, it is most expedient to perform the valve 7 with full control (with locking), for example, on the basis of an electronic valve. The connection of the capacitor 5 to the electrostatic precipitator J for discharge in the dead time is ensured by the discharge of the capacitor 5 to the electrostatic precipitator. This leads to smoothing, and consequently, increases its average level. The degree of gas purification also increases. Invention Formula A device for feeding an electrostatic precipitator containing a power unit connected via a shunt to a voltage divider, to a circuit with a series-connected diode and a capacitor connected to the output terminals and the cathode of the controlled valve, the control input of which is connected to the output of the amplifier, and the anode to the point the connection of the cathode of the diode and the capacitor, characterized in that, in order to increase the degree of gas purification by reducing voltage pulsations, it additionally contains The And circuit and two zero-organs, with the inputs of the zero-organs connected to the shunt and the divider, respectively, and their outputs to the inputs of the And circuit, neither connected to the entrance amplifier „