SU1139474A1 - Evaporation apparatus separator - Google Patents

Description

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The invention relates to the construction of separators and can be used in chemical industry, tse-ply paper and other industries where evaporators are used, in particular in the production of calcium chloride.

Known separator evaporator containing a cylindrical body, tangential nozzle

the introduction of a vapor-liquid mixture, nozzles for steam output and fluid and an annular chimney located inside the cylindrical body above the tangential nozzle. The annular bump is inclined downwards at an angle of less than 90 and has the shape of a truncated cone 1.

The disadvantage of this separator is the increased sprigunos associated with the insignificant dimensions of the annular partition, as a result of which an insignificant number of droplets are deposited on its surface. Increasing the size of the annular partition leads to a decrease in the cross-sectional area of the separator, which is. the turn causes an increase in steam velocity at the location of the baffle plates. This contributes to the intensive fragmentation of the droplets and the loss of their secondary steam. In addition, the reduction in the area of the separator section leads to an increase in the hydraulic resistance in the separator, which in turn reduces the capacity of the evaporator for evaporated water.

The closest to the proposed technical essence and the achieved result is an evaporator separator containing a cylindrical body, a tangential patent: thinning of the vapor-liquid mixture, nozzles of steam and liquid and

; fender plates located inside the cylindrical body above the tangential nozzle. The baffle plates are made in the form of an annular partition attached to the wall of the cylindrical body and inclined upwards to the wall of the cylindrical body; a cylindrical shell is attached to the edge of the annular partition, above which plate J2 is placed.

The disadvantages of this separatbras are increased splash

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and increased hydraulic resistance, which leads to a decrease in the performance of the separator.

The purpose of the invention is to increase the efficiency and productivity of the separator by reducing the splash guards and reducing the hydraulic resistance.

The goal is achieved

the fact that in the separator of the evaporator, containing a cylindrical body, a tangential nozzle for introducing a vapor-liquid mixture, nozzles for withdrawing steam and liquid, and

plates located inside the cylindrical body above the tangent. the bore nozzle, the baffle plates are inclined to the horizon at an angle of less than 45 so that the upper end of the plate,

Intersected by a vertical plane passing through the longitudinal axis of the tangential nozzle, facing this nozzle, the upper end of each next plate expanding

placed above the lower end of each previous one with overlapping, and the lower ends of the plates are located above the tangential nozzle at a distance O, 11, 0 of its diameter,

Fig, I shows the proposed separator, the longitudinal incision; FIG. 2 is a section A-A in FIG. 1; Fig, 3 - separator with a slit in: axonometry; Fig 4 -

ka part of the separator at the place of installation of the plates, I.

The evaporator separator contains a cylindrical body 1, in the side of which is mounted

a tangential nozzle 2 for introducing a vapor-liquid mixture, in the upper part of the body 1 there is a nozzle 3 for evacuating steam, in the lower part there is a nozzle 4 for withdrawing liquid,

Inside the cylindrical body, above the nozzle 2 for introducing a vapor-liquid mixture, are baffle plates 5–8 that are installed inclined to the horizon at an angle of less. 45 ° so

that the upper end of the plate 5, intersected by a vertical plane 9, passing through the longitudinal axis 10 of the tangential-tubular 2, faces the nozzle 2, while this

11, 12, 13 and 14 plates

5, b, 7 and 8, respectively (in FIG. 2, they are shown in solid lines) are located above the lower ends 15, 16,

3

.17 and 18 of these plates (in Fig. 2, they are shown in dotted lines, overlapping each other. In addition, the lower ends 15-18 are laid above the tangential pipe 2 at a distance of 0.1-1.0 of its diameter.

The separator works as follows.

The vapor-liquid mixture enters the separator body 1 through a tangential nozzle 2 to introduce a vapor-liquid mixture, through which the vapor-liquid mixture acquires rotational (along an ascending spiral curve) movement, due to which large droplets (splashes) with a diameter of 150-200 µm and more are contained in the cleaned (secondary) steam, under the action of centrifugal forces, are concentrated near the walls of the housing 1, and then moving together with the steam upward, they are intensively deposited on the lower surface of the baffle plates 5-8.

The mutual arrangement of the baffle plates 5-8 and orientation relative to the input of the vapor-liquid mixture contribute to more iodine deposition on their lower surface of the spray.

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This avoids overshoot. spray between the plates along with the steam. The hydraulic resistance to the movement of steam in the separator casing at the same time decreases to 0.02 kPa. Then these splashes in the form of a liquid film flow down to the lower part of the casing, from which the liquid is drawn out through the nozzle 4 of the liquid outlet. Peeled off

secondary sprays of the 1st pair are discharged through the nozzle 3.

Thus, the execution of the baffle plates is inclined to the horizon at an angle of less than 45 ° and the location

the lower ends of the plates above the tangential nozzle at a distance of 0.11 its diameters ensure that a significant part of the large

droplets (sprays) contained in the drain pair.

The technical advantages of the proposed separator in comparison with the prototype is a reduction in

brythugous up to 50-100 mg per 1 kg of steam to be purified against 1000 mg per 1 kg, i.e. 10-20 times, and a decrease in hydraulic resistance to 0.02 kPa against 0.05-0.8 kPa in the prototype, i.e. 25-40 times.

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Claims (1)

EVAPORATOR EQUIPMENT SEPARATOR containing a cylindrical body, a tangential branch pipe for injecting a liquid-vapor mixture, steam and liquid outlet pipes and baffle plates located inside the cylindrical body above the tangential one. a nozzle, characterized in that, in order to reduce splashing water and reduce hydraulic resistance, the baffle plates are inclined to the horizon at an angle of less than 45 ^e5 so that the upper end of the plate, intersected by a vertical plane passing through the longitudinal axis of the tangential pipe, faces this pipe, the upper end of each subsequent plate is located above the lower end of each previous one with overlapping, and the lower ends of the plates are located above the tangential branch pipe at a distance of 0.1-1.0 of its diameter.