SU1733034A1 - Pulse generating and flow-swirling apparatus - Google Patents

Abstract

The invention relates to apparatus for chemical technology of water treatment. The purpose of the invention is to intensify the process of treating a fluid by providing its movement in the axial and radial direction and increasing the number of pulsation stages. Pulsation-turbulizing apparatus contains a rotor, a stator, an impeller, placed in a housing with a discharge pipe. The housing is closed by a lid with a suction nozzle and tube. The rotor and the stator are made with stepped through and closed slots and are in contact on a cylindrical and flat surface m.2 silt.

Description

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The invention relates to apparatus for processing heterogeneous media and can be used to intensify the mass transfer processes of chemical treatment of aqueous solutions.

A rotary pulsation apparatus is known, consisting of a housing, a lid, a suction and outlet nozzle, a rotating rotor, and a fixed or rotating in the opposite side of the stator, which are made in the form of cylinders with openings on the lateral surface. In this device, the fluid moves and pulsates only in the radial direction. The number of pulsation stages is limited by the size of the apparatus, which does not ensure the required quality of fluid treatment.

Known rotary pulsation apparatus having a housing with a lid, a suction discharge pipe, a rotor with channels, mounted on the shaft and a stator with channels pressed to it by bolts. On the shaft is a nut-impeller, which serves to secure the rotor and creates a pulp head.

The disadvantage of this apparatus is that the structure does not provide a level of pulsation when the fluid moves in the radial direction, which reduces the intensity of the fluid treatment process.

The purpose of the invention is to intensify the vapor process of treating a fluid due to its movement in the axial and radial direction, increasing the number of pulsation stages.

The goal is achieved by the fact that in an apparatus having a housing with a lid, suction and discharge pipes, a rotor and a stator with channels, grooves are made on the surface of the rotor and stator, and the rotor and stator are in contact on a cylindrical and flat surface. m

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FIG. 1 and 2 shows the proposed apparatus, a vertical section, side view.

The pulsation-turbulizing apparatus has a housing 1, a suction nozzle 2 with a tube 3 for supplying the reagent, a discharge nozzle 4, a rotor 5 with channels 6, mounted on a shaft 7, a stator 8 with channels 9, in contact with the rotor 5 along a cylindrical and flat surface The rotor 5 and the stator have 10 through and 11 closed grooves. The stator is kept from turning by the fingers 12. On the shaft there is a nut-impeller 13, which serves to fasten the rotor on the shaft and creating pressure of the fluid. The case is closed by a lid 14.

The operation of the apparatus is as follows.

The liquid from the suction inlet 2 and the tube 3 gets into the blades of the rotating impeller 13 and under pressure flows into the first closed grooves 11 of the stator. Then, when the rotor and the stator grooves coincide, the fluid moves along the axis, into the rotor grooves. Here the fluid receives an increment of kinetic energy and, pulsing, moves through the fixed through grooves 10 of the stator into the closed grooves 11 of the rotor 5, moving radially. This process is repeated until the liquid enters the last couple of slots.

From the last closed grooves 11 of the stator 8, the liquid enters the through grooves 10 of the rotor 5. These grooves create the pressure of the treated liquid and it moves into the discharge port 4.

The design of the apparatus provides for the presence of pulsations and turbulization when the fluid moves both in the axial direction and in the radial direction. An increase in the number of pulsation stages in a certain volume of the working area of the apparatus improves the quality of the treated liquid.

Claims (1)

The invention of the Pulsation-turbulizing apparatus, comprising a housing with a rotor and a stator installed therein, made with channels, characterized in that, in order to intensify the processing of the fluid by providing movement in the axial and radial directions, increasing the number of pulsation stages, the rotor and the stator is made with stepped through and closed slots and is contacted along cylindrical and flat surfaces. ten 2 figure 1 FIG. 2