SU1261691A1 - Centrifugal recirculating separator - Google Patents

Abstract

A CENTRIFUGAL RECIRCULATION SEPARATOR containing a vertical body with horizontal partitions, multi-pass spiral packages arranged on them with axial funnel-shaped drain holes at the bases, flat covers, installed with a gap above the holes, nozzles for introducing the initial mixture and gas outlet and separated liquid, differing from that, in order to increase productivity, ensure reliability and uninterrupted operation of the separator due to the joint removal of liquid and recirculation gas, it wives chamfered curved vanes forming the conical surface curved along the rotational and gas zakreplenny- tg mi top on flat lids.

Description

The invention relates to apiarates designed to precipitate in the centrifugal field from a gaseous liquid gallidisperse liquid particles that can have solid inclusions (suspensions) and can be used in various industries related to the separation and separation of gas suspensions consisting of solids, particles and liquid droplets, for example, in oil, gas, chemical, energy, etc.

The aim of the invention is to increase the productivity, ensure the reliability and uninterrupted operation of the separator due to the joint removal of liquid and recirculated gas.

FIG. 1 shows the proposed separator, a longitudinal section; in fig. 2 is a section A-A in FIG. one; in fig. 3 - a mechanism for diverting a rotating gas-liquid flow and gas recirculation.

The separator consists of a vertical body 1, divided by horizontal partitions 2 into chambers, where multiple spiral packages 3 are located, working to twist and unwind the gas flow, installed in series one above the other. In the base 4 of each package 3, working for twisting, there are funnel-shaped drain holes 5 with nozzles 6 for draining the separated liquid. Above the drain holes 5 with a gap of h, flat caps 7 are coaxially mounted, on the surface of which the bent, chamfered blades 8 are radially fixed, while their edge is located along the generatrix of the conical surface and the blades are bent in the direction of gas rotation.

The housing 1 of the separator is equipped with an inlet pipe 9 of the original gas-liquid mixture. Purified gas exits through nozzle 10. Liquid is discharged through nozzle 11.

The separator works as follows.

The gas-liquid mixture through the tangential nozzle 9 is fed into the lower part of the apparatus, under the multiple spiral package 3, where the precipitation (separation) of large particles and drops onto the inner surface of the housing 1 occurs due to centrifugal force.

Then, the partially purified gas, lifting up, gets into the arcuate channels of the package 3, which operates to twist the gas flow.

When the gas flow moves to the center of the package 3, its tangential velocity increases by 15–20 times (at W 3 m / s over the cross section

apparatus), where under the influence of increasing centrifugal force, the deposition of polydisperse particles on the concave surface of the package 3.

Under the pressure of the gas stream, the liquid film rushes to the inner edge of the package 3, from which liquid and gas rush into the gap formed by the lid 7 and the base 4 of the package 3. The lower part of the liquid film under the pressure of the gas stream immediately enters the gap h under the flat lid 7

0 (FIG. 3), where the velocity of the gas is converted to static, and the pressure in the funnel-shaped drain holes 5 becomes greater than at the outlet of the nozzles 6.

The gap h between the flat lid and the base of the bag must not be less than

4Cg

where D is the diameter of the cover 7;

Di. - diameter of the drain hole. This makes it possible to create a support in the opening 5,

0 which makes it possible to organize gas recirculation and carry out an effective and unhindered continuous removal of the captured liquid and solid particles from the separation zone through the branch pipes 6. The presence of curved along the lid 7

5, the rotation of the gas of the bevel blades 8 contributes to the "suction of the film of liquid formed on the surface of the cover from the center to the periphery, and its removal under the cover from the separation zone.

Q The presence of blades and their configuration allow to exclude the liquid entrainment on the outer surface of the drain nozzles, which makes it possible to increase the working speed over the cross section of the apparatus, i.e., its performance, while maintaining a high degree of purification.

7

FIG. 2

Claims (1)

CENTRIFUGAL RECIRCULATION SEPARATOR, comprising a vertical housing with horizontal partitions, multi-helical packages located on them with axial funnel-shaped drain holes at the bases, flat covers, installed with a gap above the holes, nozzles for the input of the initial mixture and the outlet of gas and separated liquid, characterized in that in order to increase productivity, ensure reliability and uninterrupted operation of the separator due to the joint removal of liquid and recirculation gas, it is equipped with Ocean curved vanes forming the conical surface curved along the rotation of the gas, and fixed on top of the cover plate. to C ©