SU1710134A1 - Device to electrically separate dispersed fluids - Google Patents

Abstract

The invention relates to the technique of electrical separation of dispersion media (aerosols, emulsions, etc.). It can be applied in various industries. The goal is to improve the quality of the separation of the dispersion medium. The device includes a housing with longitudinal dielectric elements СДЭ). inlet and outlet nozzles. DE is installed on the transverse partition wall that overlaps the hull section with the formation of narrow channels on the side of the inlet nozzle, and the outlet nozzle is located near the partition on the opposite side. The filter material can be placed inside the DE from the inlet nozzle side, and grounded electrodes can be placed in the space between the DE from the inlet nozzle side. 2 ep f-ly, 8 il. ^ l ^ xI

Description

This invention relates to a technique for the electrical separation of dispersed media (aerosols, emulsions, t, p.) And may find application in various industries.

The purpose of the invention is to improve the quality of the separation of the dispersion medium.

Figures 1.3.5 and 7 show variants of the device proposed. FIG. 2. 4. 6. 8 - section A-A in FIG. 1.3.5.7, respectively.

The device for electro-separation of dispersed media comprises a housing 1 with an inlet 2 and an outlet 3 with nozzles and a fitting 4 for resetting the separated dispersed phase. Inside the housing 1 a longitudinal dielectric element 5 is placed in the form of a pipe fixed on the transverse partition 6 so as to form a narrow (along

compared with the main section of the housing) the channel on the side of the inlet nozzle 2. The outlet nozzle 3 is located near the partition 6 on the side opposite to the inlet nozzle 2. Filter material 7 is placed inside the dielectric tube 5. In this embodiment of the device, the tube electrified by the flow of the medium plays the role of a potential electrode 5. and the counter electrode is a grounded housing 1.

In the embodiment of the device shown in FIG. on the partition 6, several tubular dielectric elements 5 are mounted, made of differently electrically insulating dielectrics and installed in alternate order.

Figure 5 shows a variant of the device with lamellar dielectric elements 5, which are installed in the partition 6 with the formation of slit-like channels. Elements 5 are made of dissimilar dielectrics and are installed in alternate order.

The device variant presented in FIG. 7 is similar to the embodiment in FIG. 5. The difference is that the lamellar dielectric elements 5 are made of the same type of dielectric, and grounded electrodes 8 are additionally installed in the space between them.

The operation of the device will be considered using the example of aerosol separation (Fig. 1).

The device works as follows.

The aerosol flow through the inlet 2 enters the channel formed by the tubular dielectric element 5. When the aerosol moves inside the element 5, the latter is electrified and an electrostatic charge is formed on the outer wall of the element 5, and an electrostatic field occurs in the space between the charged element 5 and the grounded body 1 , under the action of which water droplets are separated from the aerosol stream and deposited on the walls of the housing 1. The purified aerosol is discharged through the nozzle 3, and the separated liquid as it accumulates neither discharged through pipe 4 inside presence

The dielectric tube 5 of the filter material 7 contributes to the enlargement of aerosol droplets and intensifies the effect of electrification of the dielectric tube 5.

Other options for the device work as described.

Claims (3)

1. A device for electroseparation of dispersed media, including a housing with longitudinal dielectric elements, inlet and outlet nozzles, characterized in that, in order to improve the quality of separation of the dispersion medium, the device is equipped with a transversal partition covering the cross section of the housing with holes in which dielectric elements with the formation of channels from the side of the inlet nozzle, and the outlet nozzle is located near the partition on the opposite side. 2. The device according to Clause 1, about t l and h a yu E es the fact that the channels formed by the dielectric elements from the input , pipe, equipped with a filter material. 3. Device according to Claims 1 and 2, so that it is equipped with grounded electrodes placed in the space between the channels on the side of the outlet nozzle. Pui.l Dx fe.2 Fig.Z needles Rig.b Aa .6