SU52494A1 - Apparatus for electrical sedimentation of gases - Google Patents

Description

From the theory of electrical filters for sedimentation of gases from gases, it is known that the degree of gas purification depends very strongly on the intensity of the electric field in the discharge space of the filter. In an electrostatic precipitator of conventional construction, an increase in the voltage of the field can be achieved only by increasing the operating voltage, however, the possibility of this is limited by the breakdown voltage of the filter.

The proposed design of the electrostatic precipitator is characterized by the use of an additional grid electrode, which serves to control the distribution of potential gradients in the discharge space. In such a filter, with the same operating voltage, an incomparably more favorable distribution of gradients over the filter section can be created than in a conventional design.

The invention is illustrated in the drawing; in FIG. 1 and 2 of which the device according to the invention is depicted with tubular and chamber filter structures; FIG. 3-circuit power device.

The drawing contains the following notations: 7 corona electrodes, 2-additional grid electrode, 3-collecting electrode. Additional electrode 2 is a sparse grid or a series of closely spaced wires separating the donor electrodes from the precipitation electrode. So that the additional electrode is not clogged with dust. the grid can be quite rare, the distance between the wires that form it can be on the order of a few centimeters. The voltage applied to the additional electrode is positively positive with respect to the corona electrode and negative with respect to the collecting electrode. Thus, the flow of negative ions created in. the crown area will largely pass through the screen and flow towards the precipitation electrode, charging dust passing along the filter. Here, the space between the corona and additional electrodes is an ion generator ,. and the space between the additional and precipitation electrodes is the electrostatic precipitator itself. Placing the grid close enough to the corona electrodes and setting the appropriate potential on the grid

it is quite possible to level the field in such a way that the most favorable conditions were created namely, c. seating space. The attached table shows the estimated estimated data. Distribution

No mesh

Corona electrode with a diameter of 1 mm. Dissipative electrode with a diameter of 150 mm. Voltage, wire-cylinder 35 kV

for one of the possible applications of the mesh in a tubular electrostatic precipitator, showing very favorable results of mesh application.

With mesh

Corona electrode with a diameter of 1 mm Mesh with a diameter of 55 mm Sediment electrode with a diameter of 150 mm Voltage. Wire-network 17.1 kV Voltage. Grid-cylinder 17.9 kV gradients in the discharge space of a tubular electrofilter with and without a grid

Similar results can be obtained in the chamber filter design.

Power supply of the electrostatic precipitator with a grid can also be made from one unit. The grid potential in this case is supplied by a voltage divider. A circuit for such a feed is shown in FIG. 3. Here is a rectifier unit, a 5-divider voltage.

With a large number of filters it may be more advantageous to set the potential on the grid from a separate unit. It should be noted that even an isolated grid, to which the potential is not assigned externally, is charged with currents to a potential more negative than the potential of space, and thus, to some extent, can also have a beneficial effect in terms of the distribution of gradients in the discharge space. However, this latter possibility of using a grid is difficult to calculate and must still be verified experimentally.

The use of a grid with a potential specified from outside has one more advantage. The grid shields the corona electrode from the influence of a volume charge associated with dust passing in the space between the grid and the collecting electrode. This circumstance will further intensify the electric field in the electrostatic precipitator with a grid as compared to a filter with a conventional design, in which a dusty charge weakens the intensity of the corona on the inner electrode.

The subject matter of the invention.

A device for electrical sedimentation of suspensions from gases, characterized in that, in order to control the electric field and volume charge, in the space between the discharge and collecting electrodes of the filter an additional grid electrode is placed, connected to a potential source intermediate between the potentials of the main electrodes.

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