SU1741911A1 - Apparatus for electrically cleaning gases - Google Patents

Abstract

The invention relates to electric gas cleaning methods, can be used in national households using electric filters for gas cleaning, and allows to simplify the gas cleaning device, increase its reliability, increase the gas cleaning degree and reduce electric power consumption. The device for electrical gas cleaning contains a source of constant voltage 1 with a pulse converter 2 and an electrostatic precipitator 3 with corona 4 and collecting 5 electrodes, with one part of the corona electrodes connected to the input of the pulse converter 2, the other to its output, and corona electrodes, connected to the input of the pulse converter, made with regard to the provision of a certain corona discharge voltage of 1 hp phyla, 1 sludge

Description

The invention relates to electrical methods of gas purification and can be used in sectors of the economy using electric filters for gas purification. 5

The aim of the invention is to simplify the device, increase its reliability, increase the degree of gas purification and save energy.

The drawing shows a block diagram 1 (device for electrical gas purification.

The device comprises a constant voltage source 1, a pulse converter 2, an electrostatic precipitator 3, containing, for example, two directional groups of correlation electrodes 4 and precipitation electrodes 5. '

Pulse Converter 2 contains a key 6, shunted by a series of counterclockwise 2 (diode 7, resistor 8 and inductor 9, and inductor 10.

A device for electric gas purification works as follows.

From a constant voltage source 1, the potential is supplied to the input of the pulse 2ί converter 2 and to the group of corona electrodes 4 connected to it. When the key 6 is turned on in the pulse converter 2, the charge on the groups of corona electrodes 4 is distributed 3 (in proportion to their capacitances. Via key 6 and inductor 10 will flow current, and on the group of corona electrodes 4. connected to the output of pulse converter 2. a leading 3 will form; the front of the voltage pulse during the first half-cycle of the flowing current. During the second half cycle of current flow will form the trailing edge of the voltage pulse, the second poluperi- 41 ode current will flow through, the chain comprising inductors 10 and 9, a resistor 8 and a diode 7.

After completing the second half-cycle, 4! yes, in this circuit of the pulse converter 2, the process of recharging the capacitive group of the corona electrodes is stopped until the next switch 6 is turned on. In this case, until the next switch on of the key 5 ¹ 6, the capacity of the group of corona electrodes 4 connected to the input of the pulse converter 2 from the DC voltage source 1 is recharged, and increase in voltage on it. Simultaneously, the discharge of the capacitance of the group of corona electrodes 4 connected to the output of the pulse transducer 2 due to corona discharge occurs, and the voltage on it decreases. A new inclusion of key 6 leads to the formation of the next voltage pulse.

The group of corona electrodes 4, which is used as an energy storage device, is made with a corona discharge ignition voltage in the range from 18 * 10 ³ V to the level of formation of electrical breakdowns between the electrodes 4 and 5. In this case, a stable) voltage pulse formation mode is created on the corona group electrodes 4, connected to the output of the transducer 2. For various values of the electrical resistivity of the captured dust, change5; The ignition voltage is regulated by the current density of the corona discharge for operation without reverse corona.

Charged in the field of the pulse corona created in the group of corona electrodes 4 connected to the output of the pulse transducer 2 ₍ particles enter the electric field of the group of corona electrodes 4 connected to the input of the pulse transducer. 2, where they are effectively deposited, since there is no reverse corona This condition increases the degree of purification and reduces energy consumption.

The distance from the corona surfaces to the precipitation electrode 5 in the group of corona 4 and 'precipitation 5 3 electrodes used as an energy storage device is greater than in the second group connected to the output of the pulse converter 2. This design of the device allows to obtain the required potential difference at the input and the output of the pulse Converter 2 upon reaching the pre-breakdown mode in both groups of the corona electrodes 4 and to ensure maximum electric field strength 3, i.e. allows you to achieve the maximum degree of purification in the device, to obtain the maximum range of voltage ripple on the group of corona 5 electrodes 4 connected to the output of the pulse Converter 2 and, ultimately, to reduce the energy consumption.

Claims (2)

Claim 3 1. A device for electric gas purification, comprising a constant voltage source with a pulse converter and an electrostatic precipitating and corona electrodes filter, characterized in 5 topics. that, in order to simplify the device. ' increase its reliability, increase the degree of gas purification and save energy, one part of the corona elements is connected to the input of the pulse converter, and the other to its output. 5 1741911 2. The device according to π. 1, the fact that the corona electrodes connected to the input of the pulse converter are made taking into account the provision of the ignition voltage of the corona discharge in the range from 1 × 10 ³ V to the level of formation of electric breakdowns of the interelectrode gap.