SU1834712A3 - Horizontal electric filter with longitudinally lateral gas movement - Google Patents

Description

The invention relates to techniques for dust collection, can be used to clean air or gas from particles of the dispersed phase and serves the purpose of environmental protection.

The objective of the invention is aimed at increasing the degree of gas purification from the dispersed phase due to the uniform laminar flow of a dust and gas stream between the precipitation electrodes.

The solution to this problem is achieved by the fact that the first flanging of each of the first pairs in the flow is directed upstream, and the second - against the flow, the flanging of each pair form slots with each other less than the height of the precipitation electrode and a width decreasing along the flow, while the flanges of each desk are placed along both sides relative to the plane of the precipitation electrode.

In FIG. ί a longitudinal section of an electrostatic precipitator is shown; in Fig.2 is a side view.

In the housing 1 of the electrostatic precipitator, having input 2 and output 3 nozzles, slotted. hopper 4, corona electrodes 5 and parallel precipitation electrodes b with flanges 7, 8 placed I are installed; pairwise and forming slots 9, high; (less than the height of the precipitation electrode J; and the width decreasing along the | gas flow. Flanging each of the cards is placed I on both sides relative to the plane j of the precipitation electrode, which are connected by end caps 10 at the ends ί. The first flanging of 7 slots 9 is directed in flow j, and the second flange 8 is against the flow, j. ie, each flange is thus directed towards the plug 10. In the bunker 4, gas-reflecting baffles 11 are installed that are adjacent to the plane of the precipitation electrodes.

1834712 AZ

In another embodiment, the precipitation electrodes 6 can be made integral with the partitions 11. The partitions 11 are connected to the walls of the hopper 4. turned 90 °.

The electrostatic precipitator operates as follows: the gas and dust flow through the inlet pipe 2 of the housing 1 enters the opening from the inlet side of the channels between the precipitation electrodes 6. where particles are charged in the corona discharge field from the corona electrodes 5. Then the gas through the slots 9 of the precipitation electrodes 6 enters adjacent channels. In the laminar flow at the surface of the precipitation electrodes of the 6th flanging 7.8, particles are deposited due to Coulomb electrostatic forces.

The purified gas leaves the electrostatic precipitator through the outlet pipe 3. After regeneration of the precipitation electrodes 6, a layer of trapped dust enters the hopper 4 between the gas baffles 11 and is removed from the hopper, for example, by a screw. The plugs 10, also connected to the inclined walls of the hopper 4, prevent the flow of gas through inactive and semi-active zones of the electrostatic precipitator. The parallel walls of the hopper (figure 2) are parallel to the precipitation electrodes of the bi-reflective partitions 11, therefore, the electrostatic precipitator consists of a number of vertical channels. The channels communicate with each other only through slots 9 with flanges 7, 8 made with a height h less than the length of the corona electrodes 5, i.e. only in the core of the filter. The decreasing width S of slots 9 in the gas flow and the fact that the total area of all slits on each precipitation electrode exceeds the width of the channel between adjacent electrodes ensures uniform gas distribution along the channel during laminar flow motion (the cross-sectional area is larger, the Reynolds number is less than critical) in the direction of the slots 9. The presence and implementation of flanging 7. 8, as shown in Fig.Z; creates a component of the velocity of the gas flow towards the surface of the precipitation electrode 6, which increases the drift velocity.

Thus, a uniform velocity distribution over the slits, laminarization of the flow in the deposition zone while maintaining turbulence in the charging zone, a decrease in the gas velocity along the precipitation electrode and an increase in the particle velocity towards the precipitation electrode in the absence of gas flows outside the electric field — all this allows to increase the degree of purification gas from dust.

Claims (1)

Claim A horizontal electrostatic precipitator with a longitudinal-transverse gas path, including a housing, precipitation electrodes with pairwise arranged vertical flanges, forming parallel channels in which the corona electrodes are located, a slotted hopper with gas-reflecting baffles, which is ensured by the fact that the first flange of each first upstream pair is directed downstream. and the second against the flow, the flanges of each pair form a space with a height less than the height of the precipitation electrode and a width that decreases along the flow, and the flanges of each pair are placed on both sides relative to the plane of the precipitation electrode, and the parallel sides of the slotted hopper are also parallel to the precipitation electrodes and gas baffles. Aa