SU1269847A1 - Centrifugal apparatus for purifying liquid - Google Patents

Abstract

The invention relates to the field of mechanical engineering, namely centrifugal construction. The purpose of the invention is to improve the quality of cleaning. The centrifugal fluid cleaning apparatus comprises a rotor 1, nozzles 2 and 3 of light and heavy liquids. The insert 4 is formed by coaxially arranged shell rings with connections for the passage of heavy and light liquid. Nozzles dp of passage of heavy liquid are placed on the outer surface of each shell diametrically opposite. Similarly, nozzles for the passage of light liquid are located on the inner surface of the shells. The shells are turned one relative but the other so that the nozzles for the passage of heavy liquid are located opposite the nozzles for supplying the light liquid of the other shell with the formation of contact and separation zones. Light and heavy liquids collide and form contact vapors with intensive mass transfer and dispersion of heavy liquid. In the separation zone, liquid separation occurs. 3 il. GO of GO GS 4

Description

The invention relates to mechanical engineering, namely to centrifugal engineering, and can be used in the refining, chemical, food and other sectors of the economy.

The purpose of the invention is to improve the quality of cleaning of the processed product.

Figure 1 shows a centrifugal apparatus, a vertical section; Fig.2vid A in Fig.1; in Fig.Z - section B ~ B in Fig.2.

The centrifugal apparatus comprises a rotor 1, a light supply pipe 2 and a heavy liquid supply pipe 3, an insert located inside the rotor 1

4 formed by coaxially arranged cylindrical shells

5 have, by them, nozzles 6 and 7 for passage of heavy and light liquids responsibly, devices 8 and 9 for outputting light and heavy liquids. Moreover, the nozzles 6 for the passage of heavy fluid are placed on the outer surface of each shell 5 diametrically opposed, and the nozzles 7 for the passage of light fluid are placed on the inner surface of each shell 5 also diametrically opposite. In addition, the shells 5 are rotated relative to one another so that the nozzles 6 for the passage of heavy liquids are located opposite the nozzles 7 for the passage of light liquids of the adjacent shell 5 by creating zones 10 of contacting fluids and zones 11 of separation formed by the solid walls of adjacent shells 5 and end. the rotor caps 12 1. The nozzles 6 and '7 have openings 13 for the inlet of the liquid, which are larger than the openings 14 for the outlet. The ratio between the diameters of the latter should not exceed 0.85.

The device operates as follows.

Empty rotor! accelerate to operating speed. Then, light liquid is supplied through pipe 2, channels 15 and 16, filling the entire volume of the rotor. Then, heavy liquid is supplied through pipe 3. Under the action of centrifugal forces, passing through a layer of light fluid, a heavy fluid is discarded on the inner surface of the first cylindrical shell 5, spreads over its entire surface, fills all nozzles

6. Thus, a certain level 17 of the phase separation is established. The heavy liquid filling the nozzles 6 excludes the passage of the light phase, forms a jet and increases its flow rate, working on the principle of a nozzle. Thus, a heavy fluid flowing out of the nozzles 6, collides with the oncoming flow of light fluid flowing out of the nozzles 7, forming contact pairs in which intense mass transfer occurs. As a result of such collisions at each stage of contact prog, dispersion of a heavy liquid occurs. Displaced from each contacting zone 10 of the liquid fall into the corresponding separation zone 11, where they are separated. So, as a result of the contact of liquids in the first stage of contacting, a heavy liquid is discarded to the periphery, i.e. to the inner wall of the second shell 5 from the rotor axis, and fills the nozzles 6 of the second contact stage. The light liquid is forced out to the outer surface of the first shell 5 and flows through the nozzles 7 to the central part of the rotor 1. Subsequently, the light liquid enters the annular pocket 18 of the selection of light liquid and is discharged using the device 8. As the nozzles 6 fill with the second liquid with a heavy liquid from the axis of rotation of the rotor of the shell 5 :: the outflow and similar contacting of liquids at the second contact stage begins. At all follow-up. At the contact steps, a mass transfer process similar to the process at the first contact step occurs.

As a result, mass transfer and transfer of light fluid from the periphery to the center of the rotor, and heavy fluid from the central part of the rotor to the periphery, from where it is discharged by the device 9 from the pocket 19, are carried out.

The supply of adjacent shells with nozzles contributes to the formation of contact and separation zones, which improves the quality of treatment of the treated fluid.

Claims (2)

The invention relates to mash-building, namely to centrifugal engineering, and can be used in the refining, chemical, food and other sectors of the national economy. The purpose of the invention is to improve the quality of cleaning the processed product. In Fig. 1, a centrifugal apparatus is shown, vertical section; in fig. view A in figure 1; on fig.Z - section bb in fig. 2. The centrifugal apparatus contains a rotor 1, a light-supplying nozzle 2 and a heavy-fluid supplying nozzle 3, placed inside the rotor 1 insert 4, formed coaxially with cylindrical shell 5, having nozzles b and 7 for passage of heavy and light liquids Responsibly, devices 8 and 9 for outputting light and heavy treads. Moreover, nozzles b for passage of heavy liquid are placed diametrically opposite on the outer surface of the shell 5, and nozzles 7 for the passage of light liquid placed on the inner surface of each shell 5 are also diametrically opposed. In addition, the shells 5 are rotated one relative to the other so that the b pipes for passage of a heavy liquid are opposite the nozzles 7 for the easy passage of a row of the located shell 5 with the formation of zones 10 to synchronize liquids and 11 zones of qenation -. adjacent shells 5 and end caps 12 of the rotor 1. Nozzles b and have openings 13 of the fluid inlet, which are larger than the openings 14 of the exit. The ratio between the diameters nosled iik not to: pkno exceed 0.85. The device works as follows. The empty rotor is accelerated to the operating speed. Then, through the nozzle 2, a light liquid is supplied to the channels 15 and 16, filling the entire volume of the rotor. Then through pipe 3 is supplied heavy liquid. Under the action of centrifugal forces, the passage through the layer of light liquid, the heavy liquid is thrown onto the inner surface of the first cylindrical shell 5, spreads over its entire surface 472, fills all the pipes b. In this way, a certain level 17 of phase separation is established. Filling the nozzles with 6 tons of liquid eliminates the passage of the light phase, forms cTpjTO and increases its flow rate, working on the principle of a nozzle. Thus, the heavy liquid having flowed out of the pipes b. collides with a counter-flow of light liquid flowing from the nozzles 7 to form contact pairs in which an intensive mass exchange takes place. As a result of such collisions, the dispersion of heavy liquid proceeds at each stage of contact. The liquid contacts displaced from each zone 10 fall into the corresponding separation zone 1 1 where they are separated. Thus, as a result of the contact of the liquids of the first stage of contact, the liquid is thrown to the periphery, i.e. to the inner wall of the second from the axis of the rotor of the shell 5, and fills the nozzles 6 of the second contact stage. The light fluid is displaced to the outer surface of the first shell 5 and flows through the nozzles 7 into the central part of the rotor 1. Subsequently, the light liquid enters the ring pocket 18 of the light liquid withdrawal and is discharged by means of the device 8. As the heavy liquid is filling the nozzle b from the second the axis of rotation of the rotor of the shell 5:;:: the outflow and similar contacting of the liquids at the second contact stage begins. At all subsequent stages of contact, a process of mass exchange occurs, similar to the process at the first stage of contact. As a result, mass exchange and flow of light liquid from the periphery to the center of the rotor, and heavy liquid from the central part of the rotor to the periphery, from where it is removed by the device 9 from the pocket 19, is carried out by supplying the adjacent shells with nozzles to form contact and separation zones, which improves cleaning quality of the treated fluid. Claims of the invention A centrifugal fluid cleaning apparatus containing the 1st rotor, nozzles 3, -. A: 1 for supplying light and heavy liquids, an insert placed inside the rotor, formed by coaxially arranged cylindrical shells having connections for the passage of light and heavy liquids, and in order to improve the quality of cleaning, branch pipes for the passage of light liquid are placed on the inner surface of each shell diametrically opposite. 47 and branch pipes for the passage of heavy liquid are placed on the outer surface of each shell also diametrically opposite, with the shell turned one relative to the other so that the branch pipes for the passage of light liquid are opposite the branch pipes for the passage of a heavy liquid near the arranged shell with formation. zones of contact. Vidl 2