SU1344394A1 - Gas washer - Google Patents

Abstract

The invention relates to chemical process apparatuses and permits an increase in gas cleaning efficiency and productivity due to the intensification of phase contact and a decrease in the secondary entrainment of liquid. The gas washer contains a hopper 1 on which a cylindrical washing chamber 2 is vertically installed with a tangential gas inlet nozzle 3. Inside the washing chamber 2, an annular channel 4 is formed coaxially with the upper 5 and lower 6 zigzag baffles that form in the annular channel 4 alternate narrowing zones - expansions of the flow area, set at an angle to the axis of the device in a direction downward to the periphery, and perforated with slots in the lower tops. The bottom partition 6 is connected to a truncated cone 8 installed with a gap of 9 meters to the washing chamber 2. The gaps are made in the center of the partitions 5 and 6. The gap 10 is included in the nozzle 12 of the input fluid with a gap 13 from its wall. Cone spray 14 is made of a set of unidirectional plates. The scrubber is equipped with a nozzle 16 in the form of conical towers ei, respectively, lower 17 and upper 18, set top down and having a base corresponding to the internal diameter of the washing chamber 2. The angle at the top increases from the bottom swirl 17 to the top 18. Such a constructive solution provides a swirling movement of gas and liquid all the way, which allows to create a highly efficient contact of phases, to reduce re-entrainment due to effective centrifugal separation. 3 hp f-ly, 4 ill. S (L with so with 4 zagr1znensnos 1 1 og 1ona Mfu focfnir

Description

The invention relates to apparatuses of chemical technology and can be used for conducting heat and mass transfer processes, as well as for wet gas cleaning in various sectors of the industry.

The aim of the invention is to increase the gas cleaning efficiency and productivity due to the intensification of the contact of the phases and the reduction of the secondary entrainment of liquid.

FIG. 1 shows a gas washer, general view, section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - upper partition, bottom view; in fig. 4 - bottom partition, bottom view.

The scrubber contains a hopper 1 on which a cylindrical washer 2 is vertically mounted with a tangential gas inlet 3. Inside the washing chamber 2, the annular channel 4 formed by the upper 5 and lower 6 zigzag baffles is formed coaxially, which form in the annular channel 4 alternating zones of constriction -expansion, set at an angle to the axis of the device in a direction descending to the periphery, and perforated slots 7 in the lower tops. The bottom partition 6 is connected to a truncated cone 8, installed with a gap of 9 to the washing chamber 2. In the center of the partitions 5 and 6, gaps 10 and 11 are made, respectively. Gap 10 is included in the nozzle 12 of the input fluid with a gap of 13 from his Stepka and with a conical sprinkler 14 made of a set of unidirectional plates 15. In the space of the hopper 1 and the washing chamber 2 is placed the nozzle 16 in the form of the bottom 17 and the top 18 conical swirlers installed apex down and having a common base corresponding to the internal diameter of the washing chamber 2. The angle at the apex of the lower swirler 17 is less than the angle of the upper 18. Swirlers 17 and 18 are made of a set of o.a. anti-friction blades 19, which extend from gap through the slots 7 in the partition 5, crossing the annular channel 4 in the zones of narrowing of its bore. In this case, the direction of twist created by the gas inlet nozzle 3 coincides with the direction of twist of the blades 19 outside the annular channel 4, and the direction of twist created by the plates 15 of the sprinkler 14 coincides with the direction of the twist of the blades 19 inside the annular channel 4.

Gas washer works as follows.

The gas flow, contaminated with mechanical or gaseous impurities, enters the washing chamber 2 by means of the tangential gas inlet 3, twists, moves around the periphery of the scrubber with the turbulized flow and interacts with the liquid flowing down the walls of the washing chamber 2 into the bunker cleaned of contaminants . Moving along the height of the gas scrubber in the radial-axial direction, the flow passes the blades 19 of the lower swirler 17. Thanks to the fact that the direction of the twist of the blades 19 coincides with the direction of the twist in the cutting branch 3, the flow is twisted. into the flow through the slots 7 of the lower zigzag partition 6, creating a highly developed contact surface of the phases, which intensifies the process of gas cleaning. Advancing to the break And the lower zigzag partition 6, the gas-liquid flow passes the blades 19 of the upper swirler 18 and twists. In this case, in the axial zone of the annular channel 4, a high-intensity interaction of the gas flow with the washing liquid coming from the nozzle 12 to the conical sprinkler 14 is created. Due to the fact that the plates 15 create a twist opposite to the gas after the blades 19, the fast5 interaction of the dispersed water curtain and swirling gas flows, characterized by high values of relative and pulsating velocities, which provides the conditions for intensive contact of the phases and increases the efficiency of clearing gas streams. Next, the gas-liquid flow spreads in the annular channel 4, passes the blades 19 of the upper swirler 18 and twists. Due to the fact that the blades 19 pass through the annular channel 4 in the zones of its narrowing, i.e.

 the location of the maximum gas velocity, this leads to the formation of a highly turbid rotating rotating eddy foam layer, which moves in a spiral in a radially-downward direction in the volume of the annular channel 4. Due to the fact that

0, the blades 19 pass with a gap through the slots 7 in the upper zigzag partition 5, the liquid is supplied from the upper partition 5 through the blade m 19 to the high-speed flow, which ensures high dispersion of the liquid and increases the efficiency of gas flushing. Fluid enters the upper septum 5 from the nozzle 12 through the gap 13, as well as from the blades 19, located in height above the annular channel 4. Part of the liquid from the annular channel 4 is discharged through the slots 7 of the lower septum 6 into the downstream region of the scrubber, creating an intensive zone gas flushing. Gas-liquid flow in the annular channel 4 passes the blades 19 of the lower swirl 17, podkruchi5

and then interacts with the wall of the washing chamber 2. Due to the presence of a twist, an oblique impact of the liquid on the washing chamber 2 occurs, while crushing

no drops occur. The separated liquid flows through the gap 9 into the hopper I, washing the walls of the washing chamber 2, and forms a hydraulic valve in the zone between the washing chamber 2 and the truncated cone 8 The gas with non-separated liquid droplets moves along the height of the gas scrubber. Due to the fact that the swirlers 17 and 18 have a common base, in the peripheral zone of the washing chamber 2, the flow area is reduced, and part of the gas-liquid flow is redistributed from the peripheral zone to the central, i.e., to a larger free section, which eliminates local non-uniform distribution of flow rates over the cross section and increases productivity. With the passage of the swirlers 17 and 18, inertial sedimentation of the liquid on the blade x 19 occurs. By making the swirlers 17 and 18 conical with the top mounted downward, the liquid from the blades 19 is removed to the upper partition 5 due to the force of gravity from which the liquid flows again into the stream, which increases the contact time of the phases and, therefore, the degree of gas purification. The presence of highly efficient separation and packing 16 particularly affects the degree of gas purification under conditions of circulation irrigation. The gas cleared of impurities and freed from liquid leaves the scrubber in the upper part.

In the proposed gas scrubber, a swirling movement of gas is provided during the entire residence time. This makes it possible to organize the flushing of the gas in an intensive manner and to highly efficiently separate the polluted liquid from the gas.

The use of the invention provides an increase in the efficiency of gas cleaning from impurities and an increase in the productivity of the gas scrubber, which makes it possible to reduce

0

sew its dimensions and, consequently, the intensity.

Claims (4)

1. Gas washer including hopper a cylindrical washing chamber installed on it with gas and liquid inlets, installed in the chamber at an angle to the device axis, an upper and a lower one 0 zigzag partitions, forming an annular channel with alternating zones of constriction and expansion of the flow area, perforated in the lower tops and with gaps in the center for gas inlet in the lower part and liquid in the upper partitions, conical vane sprinkler, characterized in that, in order to increase efficiency gas purification and performance due to the intensification of the contact of the phases and the reduction of the secondary liquid entrainment, it is equipped with a nozzle in the form of conical vane swirlers installed with the tops down and passing through the annular channel in the zones of narrowing of its flow area, the swirlers are made with a common base, the diameter of which is equal to the diameter of the washing chamber, and the angle at the top of the lower swirler is less than the angle of the upper one. 2. Gas washer according to claim 1, characterized in that the vanes of the swirlers are installed with a gap in the perforations of the upper zigzag partition, while the perforations are made in the form of slots. 3. Gas washer on PP. 1 and 2, characterized in that the twist direction created by the gas inlet nozzle coincides with the twist direction of the nozzle swirlers outside the annular channel. 4. Gas washer on PP. 1-3, characterized in that the twist direction created by the sprinkler coincides with the twist direction of the nozzle swirlers in the annular channel. five five 0 15 CpuS.3 figl Compiled by S. Gorinova Editor A. LezhninTechred I. VeresKorre ktor A. Zimokosov Order 4561/7 Circulation 656 Subscription VNIIPI USSR State Committee for Inventions and Discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, ul. Project, 4