SU559726A1 - Inertia-electrostatic dust concentrator - Google Patents

Description

one

The invention relates to a gas cleaning technique and may be used in the power industry for cleaning flue gases from ashes, as well as in the chemical and cement industry for cleaning gases, namely as an integrated stage in front of electrostatic precipitators or other dust and ash catchers.

A device is known for separating a frost flow, comprising a housing with a swirler located therein with a divider and vanes. However, such a device does not provide sios of precipitated particles with a stream of gases. The accumulation of the layer on the case leads to its isolation and elimination of the corona.

The purpose of the invention is to increase the cleaning efficiency and increase the productivity of the device.

This is achieved by supplying the body with additional blades, located between the blades of the swirler, and connecting the swirler to one of the poles of the high-voltage current source, while the swirler is the discharge electrode, and the body with the blades is to a different electrode, while it is a collecting electrode.

Preferably, additional loops are wedge shaped, with the gap between

the tip of the wedge and the divider are equal to the interelectrode distance.

The drawing shows the inertial electrostatic dust collector.

The inertial electrostatic dust collector has a divider 1 with a swirler 2 with coropus welded to it, their blades 3 and coroning, with needles 4 installed on both sides of these blades, a cylindrical grounded body 5 with non-coring wedge-shaped blades welded to it, connector 7 for exit cleaned gas stream, pipe 8 for the outlet of the concentrated stream, the reference

5 insulators 9, through which the divider 1 swirler 2 with blades 3 is attached to Coruyeu 5, and an input insulator 10, through which high voltage is passed to the divider 1 swirler 2 and vanes 3. All the blades of the dust concentrator are mounted iodine angle, 30 -60 to its axis.

The dust concentrator works in the following way.

The gas to be cleaned, the passage through the channels with the blades 3 and (5, is closed), and the dust, B mainly the spin particles, due to inertial forces are thrown to the walls of the corus 5. At the same time, all the particles and particles contained in the gas being cleaned

0 channels with paddles 3 and 6, to which

A high voltage is applied and which are electrodes are charged in an electric field of a corona discharge that occurs between the corona needles 4 and wedge-shaped blades 6. As is known, four devices for electrical gas cleaning apply a charged force to the charged particle: the particle to the precipitation electrode, the force of gravity, the electric wind and the force of the gas flow, dragging the particle in the direction of its movement. Considering that the velocity of the gases in the dust concentrator is 12–15 m / sec, the main force acting on charged particles of dust is the drag force of the gas flow. Thus, the charged particles will not be scattered on the hull side bodies, but will be carried away by the gas flow and, further, the combined effects of electrostatic and inertial forces will be concentrated near the body walls.

The use of the proposed inertial electrostatic dust collector provides in comparison with existing devices the following advantages:

a high degree (up to 95%) of the separation of dust particles from the gases being cleaned, including particles of small sizes; Since the charging of dust particles takes place in the electric field between adjacent blades, the dimensions of the dust concentrator case and, accordingly, the unit performance of the apiarat are practically unlimited;

no clogging of dust collector due to high gas flow rates and self-cleaning to dust particles:

when using an inertia-electrostatic dust concentrator as the upstream stage in front of the electrostatic precipitator, dust particles not affected by the dust collector and entering the electrostatic precipitator are charged and their collection is facilitated;

when using a dust concentrator as an upstream stage in front of the electrostatic precipitator, the number of electric fields in it can be reduced, since the dust concentrator ensures the separation of 90-95% of the dust particles in the purified gas.

Claims (2)

1. Inertia-electrostatic dust concentrator including a corus with a swirler located in it with dividers, vanes and nozzles for introducing the gas to be cleaned, withdrawing the purified gas and extracting the concentrate, characterized in that, in order to increase the cleaning efficiency and increase productivity located between the blades of the swirler, and the swirler is connected to one of the poles of the high-voltage current source and is the corona electrode, and the casing with the blades is to d ugomu and it is a collecting electrode. 2. An inertial-electrostatic dust concentrator according to claim 1, characterized in that the additional blades are made in the form of a wedge, the gap between the wedge top and the divider splitter being the interelectrode distance.