SU1301459A1 - Separator for cleaning gases and vapours - Google Patents

Abstract

The invention relates to heat energy and allows to increase the efficiency of separation of gas and steam mixtures by eliminating secondary moistening and preventing steam entrainment from separated ff. (L S:: l IPU2.1

Description

fluid. The separator contains a vertical cylindrical body 1 with a nozzle 2 for supplying the gas flow to be cleaned and a nozzle 3 for draining the liquid, a gas exhaust pipe A with a guide plate 5 and a nozzle 6 for draining the cleaned gas installed coaxially in the upper part of the body and containing screw vanes 7. Spirals perpendicularly above and below the screw vanes 7 are installed guiding loisti 8. Under the inlet of the pipe 4 is placed

The invention relates to a power system, in particular to separation devices, and is intended to separate liquids from gas and steam-water mixtures. ,

The aim of the invention is to increase the separation efficiency by eliminating secondary humidification and

preventing the entrainment of gas (vapor) with

separated by liquid

Fig, 1 shows a separator, a general view; FIG. 2 is a section A-A in FIG. 1; FIG. 3 shows the operation of the elastic ribs at different angles of their inclination; in fig. 4 - upper sieve plate with a conical nozzle, a slit; Fig. 5 shows the rod of the mechanism for rotating and vertically moving the lower saucer, section.

The separator contains a vertical cylindrical body 1 with a nozzle 2 supplying the cleaned molasses and a nozzle 3 draining the liquid, a central flue pipe 4 with a guide plate 5 and a nozzle 6 evacuating the cleaned gas (steam) installed coaxially in the upper part of the body and containing screw vanes 7, Spiral blades perpendicularly above and below the screw vanes 7 are provided with guide vanes 8 fixed to the pipe 4 at one end, and the free end of each blade is removed from the inner surface of the housing.

Under the inlet of the central flue pipe 4, there is an upper slam-plate 9 with a co-section plate 9 with a conical nozzle 10 entering the inside of the flue pipe 4 with a diameter D at distance 1 (1.2-1.4) D. The diameter of the nozzle dc {0,18-0,22) D. The rim of the hull frame around the circumference is rigidly attached to the ribs 12 of elastic steel, the lower ends of which are fixed on the plate 13 mounted on the rod 14 with a screw thread. In order to change the angle of inclination of the ribs 12, the rod 14 is moved by a jack and rotated along the guide teeth. 1 hp f-ly. 5 il.

With a classical nozzle 10J which enters the central exhaust pipe 4, bands of elastic steel are rigidly attached to the lid 11 of the housing around the circumference; forming ribs 12, lower horses; which are fixed on the lower slam plate 13 fitted with a turning mechanism and vertical movement, including the rod 14 with screw thread, which is connected to the jack via the coupling 15. The latter is carried out by the vertical movement of the blade 14, the rotation of which is carried out during the movement of its screw cutting, along the guide teeth m 16

The separator works as follows.

The mixture of gas (vapor) and the liquid are introduced into the cylindrical body 1 through the nozzle 2 ,. The flow first falls on the guide plate 5, and then twists around the central flue pipe 4 with screw blades 7. Drops of liquid are thrown by centrifugal forces against the wall of the body and held by means of ribs 12. The fluid flows into the lower part of the body under the plates 9 and 13 and then it is discharged through the pipe 3. The guide vanes 8 prevent the film liquid from entering the central; The gas exhaust pipe 4. The gas falling under the plate 9 through the gaps between the ribs is removed into the central pipe 4 due to ejection through the nozzle 10. To change the angle of the ribs, the rod 14 moves with a jack and turns along the guide teeth 16.

The fluid on the wetted surface of the rib is held by the surface tension force and the viscous trenching force, which counteracts the force of gravity and increases significantly under the action of pressing the centripetal force P (FIG. 3), which is directed perpendicular to the surface. Therefore, with a strong moistening of the flow, as well as with a liquid with a high viscosity, the gaps between the fins can be filled with liquid that does not have time to descend under the force of gravity, and the possibility of secondary moistening of the gas flow again arises. To prevent this, the ribs are inclined downstream. When the rib surface is tilted, the angle oi becomes less than 90, and an oblique component of the force P appears, which is directed parallel to the surface and helps the fluid to move downwards (Fig. 36, c). The smaller the angle oi, the smaller the pressing force P, and the greater the shearing force R.

Thus, the ability to change the angle of inclination of the ribs allows to accelerate the movement of fluid into the lower part of the separator and thereby eliminate the possibility of secondary moistening of the flow with any amounts of liquid and its different viscosity.

To ensure reliable gas ejection through the conical nozzle 10, the distance from the lower end of the central exhaust pipe 4 with a diameter D to the outlet of the nozzle 10 is selected from condition 1 (1.2-1.4) D. With a length of 1, 1, a smaller 1.2D, the flow in the exhaust pipe 4 is unsteady and does not provide

BUT

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necessary speed ejektsyi. Increasing the length of 1 more than 1.4D does not lead to a further increase in the speed of ejection, therefore it is not advisable.

Increasing the diameter of the nozzle outlet d by more than 0.22D results in a decrease in the speed of ejty d, the use of d. less than 0.18D - to increase the hydraulic resistance of the nozzle, which also reduces ejection. Thus, the optimal values of the diameter of the nozzle d are in the range (0.18-0.22).

Claims (1)

1. A separator for cleaning gases and vapors, containing a vertical cylindrical body with a cap, a purge supply nozzle, a central flue with helical blades and guide vanes, a guide plate in the upper part of the casing, a nozzle of the liquid and the upper and lower cuts. plates placed in the lower part of the body, characterized in that, in order to increase the separation efficiency, it is provided with elastic ribs placed inside the body and attached to the lid and lower cutting plate, equipped with a rotation and vertical movement mechanism. 2, a separator according to claim 1, characterized in that the upper cut-off plate is provided with a conical nozzle, a part of which is 1 (1.2-1.4) D in length in the central exhaust pipe, and the diameter of the nozzle outlet dg (0.18 -0.22) 0, where D is the diameter of the central flue gas pipe, not.2 ± P / / C Va 9i.v, b sixteen (PUZ5 9g Editor A. Petrov Compiled by S. Gor Yiova Tehred L. Oleinik Order 1173/7, Tyra GB57 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 Proofreader M, Sharoshi Subscription