RU2639799C1 - Rotory pulse apparatus - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: rotary-pulsation apparatus has a working chamber with a device for introducing contacting phases in the form of injection mixing unit, which nozzle is located directly in the chamber of the apparatus, the outlet branch pipe for emulsion, with a rotor concentrically installed therein, and a stator with radial channels. The central part of the rotor has the form of a truncated cone with a recess in the apex and at least two concentric annular projections on the side surface. At the apex of the truncated cone there is a nozzle. The nozzle comprises a front concave and a side annular wall. There are through-holes made on the front and side walls of the nozzle. The nozzle is installed with a gap between the recessed surface of the truncated cone and the front wall.

EFFECT: increased homogeneity of the resulting emulsion, while ensuring high degree of its dispersion.

2 dwg

Description

The invention relates to equipment for producing dispersed systems, mainly "liquid-liquid", and can be used in chemical, food, microbiological and other industries.

Known rotary-pulse apparatus (AS USSR No. 725691, class B01F 7/28, 1975), which consists of a housing with an input pipe of one of the components located on it, ring collectors having input pipes of another component and pipes withdrawal of the finished mixture. In the housing are coaxially arranged rotor and stator cylinders having longitudinal slots for the passage of the medium to be treated. In the end wall of the rotor there are holes communicating with slots. Accordingly, in the end surface of the stator there are also holes communicating with the annular collectors.

However, in this apparatus, dispersion is carried out in one stage, directly in the slots of the rotor and stator, which cannot ensure uniformity of the emulsion obtained.

Known rotary-pulsation apparatus for producing dispersed systems, mainly "liquid-liquid" (patent 2299091, class B01F 7/28, 2007), including a working chamber with a contact phase input device and an emulsion outlet pipe, concentrically mounted in the chamber by a rotor and a stator having radial channels. The peculiarity lies in the fact that the phase input device is an injection mixing unit, the nozzle of which is located directly in the apparatus chamber, the central part of the rotor is made in the form of a truncated cone having a recess in the apex and at least two concentric annular protrusions on the side surface.

However, the use of this device does not improve the uniformity of the resulting emulsion and its high degree of dispersion in the case of high viscosity of the starting components.

The technical problem to which the invention is directed is to increase the uniformity of the resulting emulsion while ensuring a high degree of dispersion thereof.

The task is achieved in that in a rotary-pulsating apparatus containing a working chamber with a contact phase input device in the form of an injection mixing unit, the nozzle of which is located directly in the apparatus chamber, an emulsion outlet pipe, with a rotor and a stator with radial channels concentrically mounted in it, the central part of the rotor is in the form of a truncated cone with a recess in the apex and at least two concentric annular protrusions on the side surface, according to the invention that a nozzle is installed at the top of the truncated cone containing the front concave and lateral annular walls, while through holes are made on the front and side walls of the nozzle, and the nozzle is installed with a gap between the recessed surface of the truncated cone and the front wall.

It is known that achieving a high degree of dispersion of emulsions is associated with an increase in the relative velocities of the interacting phases. In this design, this effect is achieved due to the presence of through holes on the outer and lateral surfaces of the nozzle mounted at the top of the truncated cone of the central part of the rotor.

When the rotor rotates, there is an additional dispersion of the emulsion component into small droplets, the size of which depends on the geometric parameters of the through holes, the hydrodynamic parameters of the flow, drive power, and stator rotation speed. Thus, the necessary conditions are created to increase the uniformity of the resulting emulsion while ensuring a high degree of dispersion.

The design of the rotary pulsation apparatus is illustrated by the drawing, where in FIG. 1 is a cross-sectional view of the device, and FIG. 2 - section of the rotor with the nozzle.

The rotary-pulsation apparatus includes a cylindrical working chamber 1 having a cover 2 with a device for introducing contacting phases 3 placed on it. The device is made in the form of an injection mixing unit, has a central pipe 4, a channel 5 located coaxially with it, ending with a nozzle 6. Through the pipe 4 and channel 5 in the mixing zone serves the components of the emulsion. Directly in the chamber 1 is a rotor 7, the rotation of which is from a drive (not shown). The central part of the rotor 7 has the shape of a truncated cone with a recess in the apex and annular protrusions on the side surface. At the top of the truncated cone, one of the known methods is fixed with a nozzle 8, which consists of a front concave wall 9 and a side annular wall 10, while there is a gap 11 between the surface of the wall 9 and the surface of the recess of the truncated 7. In the walls 9 and 10, holes 12 and 13 are made The peripheral part of the rotor 7 has three coaxial cylinders 14 with radial rectangular channels for the passage of the processed medium. On the lid 2 concentrically with respect to the cylinders 14 of the rotor 7 are two cylinders 15, which also have radial rectangular channels. The output of the finished emulsion is made through the tangential pipe 16 in the shell of the working chamber.

The device operates as follows. Initial components of the emulsion enter the central part of the rotating rotor 7 through the channel 5 and the pipe 4 of the injection unit for mixing 3. The first leaves the nozzle 6 in the form of an expanding flooded jet, entraining a portion of the flow of the second component. Part of the flow hits the surface of the wall 9 of the nozzle 8, while the jet is crushed into droplets, which after reflection are picked up by the flow of the second component and again hit the surface of the concentric annular protrusions of the central part of the rotor 7. At the same time, another part of the flow enters the openings 12, from which in the form of high-speed jets enters the gap 11. In the gap 11 there is an intensive dispersion of one of the phases and its uniform distribution in the volume of the other under the influence of pulsations of speed and pressure. From the gap 11, the flow of emulsion components is removed through openings 13 in the form of high-speed jets, which are picked up by the flow from the phase output device 3 and then impactly interact with the annular protrusions of the central part of the rotor 7. Such a multi-stage preliminary crushing of one of the components allows to obtain a fairly uniform composition of the emulsion.

Further, passing through periodically overlapping channels in the cylinders 14 of the rotor 7 and the cylinders 15 of the cover 2, the emulsion is subjected to the combined action of alternating pressure, microflows and developed turbulence. Under their influence, the final fine dispersion occurs and an emulsion of the required quality is formed, which is removed from the apparatus through the pipe 16.

The application of this technical solution will allow, in comparison with analogues, to increase the degree of homogeneity of the emulsion obtained while ensuring a high degree of dispersion by additional hydrodynamic action on the components of the emulsion by installing a nozzle at the top of the truncated cone of the rotor, the walls of which have through holes.

Claims (1)

A rotary-pulsating apparatus containing a working chamber with a contact phase input device in the form of an injection mixing unit, the nozzle of which is located directly in the apparatus chamber, an emulsion outlet pipe, with a rotor and a stator with radial channels concentrically mounted in it, and the central part of the rotor has the form truncated cone with a recess in the apex and with at least two concentric annular protrusions on the lateral surface, characterized in that at the top of the truncated cone we are installed order, comprising a front side and a concave annular wall, wherein the front and side walls of the nozzle through holes, and the nozzle installed with a gap between the recessed surface of the truncated cone and the front wall.

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