RU2594023C1 - Jet mixer for reservoirs - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to devices for mixing and making homogeneous-composition liquids in reservoirs, mainly of large volumes, and can be used in any industries, including in chemical, oil, oil processing industry and at petroleum storage depots, where homogenization of liquids with different density, prone to composition demixing. Jet mixer for reservoirs containing ejector nozzle with confuser and cylindrical mixing chamber, on the inner surface of which there are flow projections-swirlers, is equipped with a housing made in the form of a flow splitter with nozzles, having the shape of the truncate rotation surface. At least one nozzle is made by using projections-swirlers which have the form of radial rings or cylindrical rods. Confuser, which is a streamlined rotation body, has stiffening ribs, connecting the confuser with the housing, that is provided with fastener made to adjust the inclination angle of the mixer relative to the reservoir bottom. Splitter axis are located at equal angles to each other, it can be made in the form of truncated cone, paraboloid, one-sheet hyperboloid or combinations thereof. Ejector nozzle confuser is shaped to truncated cone or truncated rotation ellipsoid or rotation hyperboloid.

EFFECT: technical result is increased intensity and uniformity of mixing liquids with different densities and mechanical impurities to obtain a homogeneous structure of the mixture throughout the volume of the reservoir at reduced power consumption and providing fire safety standards.

4 cl, 2 dwg

Description

The invention relates to devices for mixing and equalizing the composition of liquids in tanks, mainly of large volumes, and can be used in any areas of the national economy, including in the chemical, oil, oil refining industries and oil depots, where homogenization of liquids of various densities, prone to bundle composition.

At present, jet mixers with nozzle ejectors and combination mixers are widely used for mixing liquids of various densities in the tanks, prone to delamination.

Known jet mixer, in which, to increase mixing efficiency, spiral guiding ribs (RU 344881) are made on the inner surface of the ejector diffuser.

Also known is a mixer (RU 965491) having an ejector with a primary slotted nozzle located along the perimeter of the outer surface of the inlet confuser of the ejector. The axis of the primary ejector nozzle is mounted perpendicular to the axis of the ejector, and the inner surface of the inlet confuser upward from the nozzle is curved and downward behind the nozzle without rounding.

These jet mixers are ineffective and therefore have limited use, mainly for mixing liquids of low density, prone to delamination, for example, milk settled during storage in tanks.

More effective devices for mixing liquids in tanks, used mainly in the chemical and oil industries, are devices RU 2189852 and RU 2314151.

For example, in RU 2189852, an increase in the efficiency of mixing liquids is due to controlled initial turbulence of the flow due to the fact that in a device containing a mixer with a nozzle and a diffuser, the mixer body is connected to the diffuser by straps. On the inner surface of the nozzle, protrusions are made in the form of radial rings or cylindrical rods with certain simplexes, and the mixer is attached to the tank body at an angle of 25-75 °.

The disadvantages of the known device include the low productivity resulting from energy losses in the diffuser and, accordingly, the insufficient intensity of mixing large volumes of liquids to obtain a homogeneous composition.

The prototype can be a jet mixer used in tanks of sufficiently large volumes, which contains a pump with suction and pressure pipes and an ejector nozzle installed at the outlet of the pressure pipe. The ejector nozzle is made in the form of a confuser and a cylindrical mixing chamber, on the inner surface of which there are protrusions-swirls of flow in the form of spiral ribs located at an angle of 30-45 ° to the axis of the nozzle. The nozzle is made with a diameter providing a fluid flow rate of 40-50 m / s. The nozzle ejector is installed in the tank in a horizontal plane on a separate liquid supply line at an angle of 60 ° from the perpendicular to the plane of the mounting hatch and in a vertical plane at an angle to the horizontal, providing a point of impact of the jet at 50 percent of the working height of the tank (RU 2314151, op. 10.01. 2008, IPC B01F 5/04).

The disadvantage of the prototype is its low efficiency due to the large energy consumption (2 pumps are required, as indicated in the description), and, accordingly, low productivity to obtain a homogeneous liquid throughout the tank. The powerful pressure of the jet from the nozzle, beating in a small area compared to a sufficiently large volume of the tank, has a negative effect on the uniformity and intensity of mixing, as well as the fire and explosion safety of the whole process.

The task underlying the invention is to create a reliable device that provides increased productivity and mixing efficiency.

The technical result consists in achieving uniform mixing of liquids with obtaining a homogeneous structure of the mixture throughout the tank without additional energy costs and violation of fire and explosion safety standards.

The technical result is achieved in that the jet mixer containing an ejector nozzle with a confuser and a cylindrical mixing chamber, on the inner surface of which protrusions are flow swirls, according to the invention, the mixer is equipped with a housing made in the form of a flow splitter with nozzles having the shape of a truncated surface of revolution, at least one of the nozzles is made ejector with protrusions-swirlers in the form of radial rings or cylindrical rods, and on the confuser, which is a streamlined t rotation rotation, stiffening ribs are made connecting the confuser to the housing, which is equipped with a holder configured to control the angle of the mixer relative to the bottom of the tank.

In addition, the axis of the splitter are located at equal angles to each other. The splitter can be made in the form of truncated forms of a cone, paraboloid, single-cavity hyperboloid, or combinations thereof, and the confuser of the ejector nozzle in the form of a truncated cone or a truncated ellipsoid of revolution or a hyperboloid of revolution.

The number of nozzles of the jet mixer, including ejector ones, is selected depending on the volume of the tank and averages from 2 to 9 pieces.

The invention is illustrated by an example of a specific implementation of the jet mixer with three nozzles, the central of which is made ejector, and the accompanying drawings:

FIG. 1 - general view of the device; FIG. 2 - placement of the mixer in the tank.

The jet mixer for tanks contains a housing 1 in the form of a flow splitter with two side nozzles 2 and a central ejector nozzle 3. On the outer surface of the confuser 4 there are stiffeners 5 connecting the confuser 4 with the nozzle 3, which serves to dampen the vibration. On the inner cylindrical surface of the mixing chamber 6 there are protrusions-swirlers 7 in the form of radial rings or cylindrical rods. The mixer body 1 is fixed in the holder 8, which, for changing the position of the mixer / angle of attack of the jets emanating from the nozzles / depending on the height and volume of the tank, is configured to control the angle α of the mixer body when the device is installed in the tank 9 (Fig. 2).

The operation of the device is as follows.

The jet mixer is fixed on the flanges to the receiving and distributing nozzle of the tank and is supported by an adjustable holder 8 mounted on the bottom of the tank 9 at an angle α from 0.5 ° to 40 ° (depending on the volume of the tank). When you turn on the hydraulic pump (not shown in the drawings), a heterogeneous composition and / or density of liquid from the pressure pipe is fed into the housing 1 of the mixer and is divided into mass flows in the splitter. Due to the configuration of nozzles 2 and 3, the fluid flow is accelerated. In the ejector nozzle 3, the fluid flow is additionally accelerated in the confuser 4, and in its mixing chamber 6, passing through the system of protrusions 7, it acquires a given turbulence in the range of 0.02-0.5. Moreover, the streams of jets coming from nozzles 2 and 3 create a complex fluid movement in the tank, part of which is additionally drawn into the mixing chamber 6 through confuser 4 of the ejector nozzle 3, acquiring secondary turbulence. The exit velocity of the jet from the ejector nozzle reaches up to 20 m / s, and the ejection coefficient is up to 3. At the same time, the stiffeners 5 of the confuser 4 effectively dampen the vibration of the walls of the tank, leading to premature destruction of the tank and negatively affect the fire and explosion safety of the whole process. Operational adjustment by the holder 8 of the position of the mixer relative to the bottom of the tank 9 allows jets to cover the entire volume of the tank and eliminate “stagnant zones”, the formation of which entails oil loss at the bottom of the tank and the need for periodic cleaning of oil sludge deposits. In this way, intensive mixing of the liquid throughout the volume and height of the tank is achieved to obtain a high-quality mixture of uniform density with a characteristic deviation of up to 10 ^-3 g / cm ³ .

The regulation of flow velocity and turbulence in practice is carried out by the selection of the shapes of the splitters of the housing 1, the confuser 4 and the parameters of the protrusions 7. The required number of nozzles, including ejector, determined depending on the volume of the tank.

Thus, the increase in efficiency during operation of the proposed jet mixer is provided without additional energy costs, but only due to part of the potential energy of the fluid flow entering the device.

Claims (4)

1. A jet mixer for reservoirs containing an ejector nozzle with a confuser and a cylindrical mixing chamber, on the inner surface of which protrusions are flow swirls, characterized in that the mixer is provided with a housing made in the form of a flow splitter with nozzles having the shape of a truncated surface of revolution, according to at least one of which is made ejector with protrusions-swirlers in the form of radial rings or cylindrical rods, and on the confuser, which is a streamlined body of revolution, are made stiffening ribs connecting the confuser with the housing, which is equipped with a holder made with the possibility of regulating the angle of inclination of the mixer relative to the bottom of the tank. 2. The mixer according to claim 1, characterized in that the axis of the splitter are located at equal angles to each other. 3. The mixer according to claim 1, characterized in that the splitter is made in the form of truncated forms of a cone, paraboloid, single-cavity hyperboloid, or combinations thereof. 4. The mixer according to claim 1, characterized in that the confuser of the ejector nozzle is a streamlined body of revolution in the form of a truncated cone or a truncated ellipsoid of revolution or a hyperboloid of revolution.

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