SU1674912A1 - Device for separating liquid drops from gas flow - Google Patents

Abstract

The invention relates to a device for separating a dropping liquid from a gas stream and allows for an increase in operating efficiency by eliminating re-entrainment. A device for separating a dropping liquid from a gas stream contains reflective elements equipped with a system of unequal corrugations with overlapping adjacent corrugations in the plane of the longitudinal section of the elements; the tops of the flat wall, the reflective elements are connected to each other, are located along the stream with overlapping vertices of adjacent elements, waste dkostnye traps each element are interconnected and form a separated liquid flow system, is isolated from exposure to flow, and the outer surface of the back side of the reflective elements and the inner surface of the side walls of the housing are covered with a rigid porous material. 3 il. THX

Description

The invention relates to devices for separating a dropping liquid from a gas stream and can be used in industries related to the purification of gas from a liquid.

The aim of the invention is to increase operational efficiency by eliminating secondary entrainment.

Figure 1 shows the proposed device; figure 2 is a view of And figure 1; on fig.Z - section bb in figure 1.

The device comprises a housing 1, reflective elements 2, equipped with a system of unequal corrugations 3 with overlapping adjacent corrugations in the plane of the longitudinal section of the elements 2, small shelves 4 corrugations 3 are provided with longitudinal slotted holes 5, which connect the grooves 6 of the depressions with drain liquid traps 7 formed by the back surface 8 corrugations 3 and a flat wall 10 attached to their tops 9. Reflective elements 2, connected to each other at an angle of 90 °, are located along the stream with overlapping tops of the junction points 11 of adjacent elements 2. accurate liquid trap 7 of each element are interconnected and form vnutrielementnuyu separated liquid drain system that is isolated from exposure to flow. The surface 12 of the back side of the walls 10 and the inner surfaces of the side walls 13 of the housing 1 are covered with a rigid porous material 14. Wall wall collectors 15 liquids placed along the inner perimeter of the device, and intermediate

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liquid collectors 16 are made in cross-section in the form of a right-angled triangle facing a gas and serve as a guide for a gas-liquid flow.

The device works as follows.

The gas-liquid flow coming from below, due to the presence of sloping walls of the wall 15 and intermediate liquid collectors 16, simultaneously assigning guides, is evenly distributed and, striking the surface of the larger shelf of the corrugation 3, changes its direction of motion by 135 °. The suspended particles of the liquid under the action of inertial forces retain the same direction and through the slit holes 5, undergoing coalescence, fall into wastewater liquid traps 7 insulated from the flow, through which they drain into the liquid collectors 15 and 16. The porous material 14, with which the flat inclined walls 10 of the elements 2 are covered, perceives the fluid in the flow, which as a result of coalescence enters the grooves of the corrugations 3, and then into the waste liquid traps 7, from the porous coating of the inner surface of the side walls 13 of the housing 1, the liquid is partially flows on flat inclined walls 10, another part flows directly into the wall collectors 15 of the liquid.

This process is repeated in each subsequent zone. The gas purified from liquid leaves the device.

The presence of slit holes eliminating backwaters, organizing the drain of the captured liquid by preventing the flow in the waste liquid traps, as well as covering the side walls and the back side of the reflective elements with a rigid porous material (polyolefin, ceramics, metal ceramics) eliminates the secondary entrainment of the liquid, ensures effective device performance, performance, reliability and rigidity

reflected elements, due to the design features of fluid collections, the aerodynamic resistance of the device is reduced.

Claims (1)

Invention Formula A device for separating a dropping liquid from a gas stream, comprising a housing with reflective elements installed therein, made in the form of corrugated plates with unequal corrugations and with overlapping of adjacent corrugations in the plane of the longitudinal section of the plates, fluid collections, characterized in that, in order to increase the separation efficiency by eliminating secondary drift, it is provided with additional corrugated reflective elements connected to each other and to the main elements at an angle of 90 ° and located along the flow with overlapping the tops of junctions of adjacent rows of elements, the reflective elements are provided with flat walls attached to the tops of the corrugations on the back side, which form drainage corrugations with the surface liquid traps, small corrugated shelves are made with longitudinal slit holes communicating the grooves of the depressions with drain liquid traps, the surface of the back side of the flat walls and the inner surfaces of the side walls of the housing are coated with a rigid porous material, with the liquid effluent traps of each row of elements communicating with each other to form a drain system of the separated liquid, and the cross-section liquid collectors are made in the form of right-angled triangles facing the flow . t f t t 1 Type 3 GO lit jfcfeA Wi i niln mil in Y / 4 /five. S Ш44 f f f FIG. 2 t t t t I t Rig.Z