DE2759195A1 - ABSORPTION BOTTOM - Google Patents

Description

NUCLEAR RESEARCH CENTER * ^ * Karlsruhe, December 29th, 1977 KARLSRUHE GMBH PLA 7774 Ha / rd

Absorbent floor

909827/0506

Description :

The invention relates to an absorption floor according to the preamble of claim 1.

Such trays are usually combined in a vertical arrangement to form columns and used as a gas cleaning section. This is done by a scrubbing liquid absorbs a gas entrained by a carrier gas.

The invention is based on the object of developing an absorption tray that has very small linear gas speeds

along the column

ten / enables and, by increasing the residence time, the decontamination conditions improved. The pressure losses and the distance between two neighboring ones should remain low Bottoms should be as small as possible, so that the lowest possible height for a column results. Also operational fluctuations the gas throughput must not impair the intended operation. Furthermore, there must be large amounts of heat of reaction be deductible.

This object is achieved according to the invention by the in the characterizing Part of claim 1 specified arrangement solved.

Further developments of the invention, such as a radially symmetrical countercurrent base, a radially symmetrical direct current base _{f e} i _n asymmetrical direct current base ^{and an} asymmetrical countercurrent flow base are explained in claims 5, 6, 7 and 8.

The advantages achieved by the invention are in particular that with the absorption floor according to the invention by a simple liquid baffle arranged in the area of the liquid surface one parallel to the liquid surface oriented gas flow is set and thereby a long contact time can be achieved. The gas baffle also prevents higher gas throughputs result in greater foaming of the liquid,

00-9827 / 0508

so that the distance between adjacent floors can be small. The horizontal gas flow caused by the gas baffle is generated favored by the differently directed liquid flows separating liquid baffle an intensive circulation of the washing liquid, since even with small flow conditions G / F approx. 10 the feed flow compared to the circulating flow is negligible to a good approximation.

An exemplary embodiment of the invention is shown in the drawing and is described in more detail below. 1 shows a radially symmetrical countercurrent tray, Fig. 2 radially symmetrical direct current base, Fig. 3 asymmetrical direct current base, Fig. 4 asymmetrical countercurrent bottom.

The one shown in Figure 1 in a simplified sectional view radial syrametric countercurrent base consists essentially of a tubular housing 1 and a base plate 2, in which Center a gas distributor 3 is arranged. The upper end of the gas distributor 3 is closed by a gas baffle 4, which with the housing 1 is firmly connected. Immediately below the gas baffle 4, the gas distributor 3 is provided with inlet openings 5 for introducing a gas 6 into a washing liquid 7. That Gas baffle 4 is at its periphery with outlet openings for the gas 6 flowing radially through the washing liquid 7. An inlet pipe 9 for the washing liquid 7 is of the Top of the countercurrent bottom at a first point on the periphery led to its lower area. An outlet pipe for discharging the washing liquid 7 opens out from the absorption tray at a second point on the periphery in the area of the liquid surface and is formed there as an overflow. At the bottom Area of the liquid space 12 which is essentially delimited by the housing 1, the bottom plate 2 and the gas inlet pipe 3 a cooling device 13 consisting of tubes is arranged. A liquid baffle 14 with on the periphery and in the central area lying openings 15 is above the cooling device appropriate.

809827/060 «

As a result of gravity, the washing liquid 7 reaches the lower area of the liquid space 12 via the inlet pipe 9, flows via the pipes of the cooling device 13 to the center of the counterflow floor, passes through the openings 15 in the central area of the liquid guide plate 14 and flows above the liquid guide plate 14 to the periphery return. Part of the washing liquid 7 passes through the openings 15 back to the cooling device 13, another part passes through the outlet openings 3 on the periphery of the gas baffle 4 to the outlet pipe 10 and via this to the inlet pipe 9 of the downstream countercurrent tray. The gas 6 is introduced via the gas distributor 3 and through its inlet openings 5 into the absorption volume 16, which is essentially delimited by the liquid guide plate 14 and the gas guide plate 4, flows radially to the outlet openings 8 on the periphery and enters the gas distributor 3 of the upstream countercurrent bottom.

This essentially horizontal gas flow between the central Inlet openings 5 and the peripheral outlet openings 8 induces a movement of the washing liquid 7 through the arrangement of the liquid guide plate 14 is used to guide the washing liquid 7 via the cooling device 13. This circulating flow is significantly greater than the feed flow of the washing liquid 7, so that the feed flow is negligible in a first approximation. Particularly simple designs of the liquid guide plate 14 result when the return flow from the periphery to the center takes place in the lower part of the liquid space 12. Cooling devices 13 can be arranged in the outward and / or in the return flow.

The gas 6 is distributed evenly under the gas baffle 4 and covers a long absorption path, so that there is a long residence time. The gas flow consists of a thin film of bubbles in the boundary layer between washing liquid 7 and gas baffle 4, which promotes absorption. The horizontal gas flow in the immediate vicinity of the surface of the scrubbing liquid 7 keeps pressure losses within narrow limits.

909827/0506

The formation of a fizzy layer, its expansion with increasing The gas load could increase and lead to the washing liquid being entrained into the next higher absorption tray basically excluded here, so that the vertical distance between two absorption trays can be much smaller. the The proposed arrangement reliably avoids the formation of dead volumes, short circuits and, in particular, allows small ones Ground clearances (v) the approximation of the gas flow to a droplet flow. By structuring the liquid guide plates 14 and in particular the gas guide plates 4, their effectiveness for the exchange of substances and heat can be increased and special boundary conditions be adjusted.

The simplified sectional view of a radially symmetrical direct current floor is shown in FIG . The gas 6 and the scrubbing liquid 7 are fed in through a central inlet pipe 20 connected to the top of the absorption tray and passed through a plurality of distributor pipes 21 into an annular chamber 22. The inner wall of the annular chamber 22 is formed by an outlet pipe 23 that is open at both ends. The outer wall 24 of the annular chamber 22 is provided with a multiplicity of passage openings 25 through which the gas 6 and scrubbing liquid 7 enter a radially symmetrical space 26. The space 26 is delimited on its underside by a bottom plate 27 adjoining the lower end of the outlet pipe 23, a tubular housing 28 and a gas baffle 29. The space 26 is divided by a liquid baffle 30 into two superimposed sections, which have a large number of the periphery and openings 31 in the central area are connected to one another, so that gas 6 and washing liquid 7 flow radially to the periphery in the upper section of space 26, i.e. above liquid guide plate 30 , and after passing through the peripheral openings below liquid guide plate 30 a cooling device 32 can flow back to the center and pass through the openings 31 located there into the area below the gas baffle 29. Gas 6 and scrubbing liquid 7 reach the top of the gas guide plate 29 in a thin film through openings 33 at the peripheral edge of the gas guide plate 29 and reach the outlet pipe 23 between the distributor pipes 21.

Θ09827 / 0506

An asymmetrical design of a direct current floor is shown in FIG. 3 as a simplified sectional view. On a first narrow side An inlet pipe 40 for gas 6 and scrubbing liquid 7 is arranged on a rectangular absorption tray. On a second The narrow side at a large distance from the inlet pipes 40 is a gas baffle arranged in the area of the liquid surface 41 is provided with a plurality of first outlet openings 42. Above the gas guide plate 41 is the flow of the gas 6 from the first Exit openings 4 2 leading away to avoid a short circuit Guide plate 43 installed with second outlet openings 44 located in the area of inlet pipe 40. On a second On the narrow side of the rectangular absorption tray there is an outlet pipe 45 for discharging gas 6 and washing liquid 7, Its mouth, designed as an overflow 46, extends into the area of the liquid level in which the gas baffle 41 is arranged. The gas baffle 41 has, in the vicinity of the outlet pipe 45, second outlet openings 47 for discharging the liquid. The liquid space 4 8 of the absorption tray is through a liquid guide plate 49 with openings 50 on both narrow sides Mistake. A cooling device 51 is installed below the liquid guide plate 49. The space between the liquid baffle 49 and gas baffle 41 form the absorption volume.

An asymmetrical countercurrent floor is shown as a simplified sectional view shown in FIG. On a first side of a rectangular absorption tray is an inlet pipe 60 for the washing liquid 7 and an outlet pipe 61 for the washing liquid 7 is arranged offset on the same side. The inlet pipe 60 is from above through a gas duct 62 delimiting the base on its upper side up to the vicinity of the base wall 63 delimiting its underside. The outlet pipe 61 penetrates the wall 6 3 from below and extends with its opening formed as an overflow 64 into the plane of the gas baffle 62. Arranged on a second side of the absorption tray is a gas inlet pipe 65 passed through the wall 63 from below, that extends to the gas baffle 62 and there with gas outlet openings 66 is provided. The gas guide plate 62 has openings 67 in the area of the first side of the absorption base through which the gas 6 guided under the gas baffle 62 from the

Soil can leak. The washing liquid first flows in the area of the lower wall 63 through the liquid space 68, in the one cooling device 69 below a liquid baffle 70 is arranged with openings 71. Through the opening 71 in the area of the second side, the washing liquid reaches the part lying above the liquid guide plate 70 of the liquid space 68 is moved by the gas 6 flowing there in the direction of the first side and partially passes through the openings 71 located there again in the lower part of the Liquid space 68 and partly passes through the openings 67 of the gas guide plate 62 into the overflow 64 of the outlet pipe 61.

- 11 -

909827/0506

Claims (8)

KERNFORSCKÜNGSZEwTRUM Karlsruhe, December 29, 1977 KARLSRUHE GMBH PLA 7774 H / rd Patent claims: 1. Absorbent floor as an element of a gas cleaning line with Inlet and outlet openings for a gas to be cleaned and / or a washing liquid with a device for cooling the Washing liquid and a liquid baffle, characterized in that the washing liquid is in the area of the surface (7) and parallel to the same a gas baffle (4, 30, 49) for setting a substantially parallel to the surface the washing liquid (7) directed flow is arranged that for introducing the gas (6) into the washing liquid (7) at least one feed point under the gas baffle (4, 29, 41) and at least one of the for discharging the gas (6) Feed point remote exit point in the gas baffle (4, 29, 41) is arranged that the ratio of the horizontal in the Washing liquid (7) lying gas flow path between the feed point and outlet point of the gas (6) to the distance between adjacent absorption trays is as large as possible, and that at least one liquid baffle (14, 30, 49) through the gas flow-induced liquid flow passes over a cooling device (13, 32, 51) and directed opposite one another Separates liquid flows. 2. Absorbent tray according to claim 1, characterized in that the surface of the gas guide plate (4, 29, 41) and / or the Fluid baffle (14, 30, 49) through uninterrupted Structuring is improved in its effectiveness for mass and heat exchange. 3. absorption floor according to claim 1, characterized in that on the surface of the gas guide plate facing the washing liquid (7) (4, 29, 41) a perforated layer is arranged. 4. absorption floor according to claim 1 and 3, characterized in that that the perforated layer consists of expanded metal or a wire mesh. 909827/0806 5. absorption floor according to one or more of claims 1 to 4, characterized in that in a radially symmetrical Form for opposite directions of the supply and discharge of the gas (6) and the scrubbing liquid (7) (Countercurrent bottom) below the gas baffle (4) and in it Center a gas distributor (3) with laterally arranged inlet openings (5) for introducing the gas (6) into the Washing liquid (7) is arranged that the gas guide plate (4) at its periphery with outlet openings (8) for the radial through the washing liquid (7) flowing gas (6) is provided that an inlet pipe (9) for the washing liquid (7) from the upstream countercurrent bottom at a first point of the Periphery to its lower area leads that an outlet pipe (10) for discharging the washing liquid (7) on one second point of the periphery opens into the area of the liquid surface and is formed there as an overflow that a cooling device (13) is arranged in the liquid space (12), and that at least one liquid guide plate (14) is provided with openings (15) located in the central area and on the periphery. 6. Absorbent tray according to one or more of claims 1 to 4, characterized in that in a radially symmetrical embodiment for the same directions of supply and discharge of the gas (6) and the washing liquid (7) (direct current tray) a central inlet pipe (20) several distribution pipes (21) are connected to an annular chamber (22), that the inner wall of the annular chamber (22) is formed by an open outlet pipe (23), that the outer wall (24) of the annular chamber (22) for introducing gas (6) and washing liquid (7) is provided with a plurality of Burentrittsöffmangen (25), that a on its underside by a subsequent to the lower end of the outlet pipe {23) Bodenblecfe {21) _f a tubular housing (28) and gas baffle (29) limited space (26) is divided into two superimposed sections by a liquid guide plate (30) so that the gas guide plate (29) has openings (33) on its periphery and the liquid guide plate (30) 909827/0506 in the central area and on the periphery with openings (31) is provided, and that a cooling device (32) is arranged in the liquid space (12). 7. absorption floor according to one or more of claims 1 to 4, characterized in that in an asymmetrical form for mutually rectified flows of the gas (6) and the scrubbing liquid (7) (direct current bottom) at one first edge of a gas baffle one or more outlet pipes (40) for gas (6) and washing liquid (7) attached are that at a second edge at a large distance from the inlet pipe (40) one or more first outlet openings (42) for gas (6) are provided in the gas guide plate (41), the second outlet openings (47) adjacent to the first outlet openings (42) for the washing liquid (7) via an overflow (46) with an outlet pipe (45) for gas (6) and washing liquid (7) is provided that above the gas guide plate (41) a guide plate (43) leading the flow of gas (6) away from the outlet opening (42) to avoid a short circuit in the area of the inlet pipes (40) lying second outlet openings (44) is arranged, and that below the gas guide plate (41) a liquid sheet (49) and a cooling device (51) are provided in the area of the liquid. 8. absorption floor according to one or more of claims 1 to 4, characterized in that in the case of an asymmetrical design for opposing flows of the gas (6) and the washing liquid (7) (countercurrent bottom) has an inlet pipe (60) for the washing liquid (7) through on a first side a gas baffle (62) delimiting the bottom on its upper side up to the area which delimits the bottom on its underside Wall (63) is guided that an outlet pipe (62) penetrates the wall (63) from below and. in the plane of the gas baffle (62) is designed as an overflow (64) that a • 99827/0506 Gas inlet pipe (65) is guided on a second side through the wall (63) and in the region of the gas guide plate (62) gas outlet openings (66) has that the gas baffle (62) is provided with openings (67) in the area of the first side, that the liquid space (68) through a liquid sheet (70) with openings (71) on the first and second sides is divided, and that a cooling device (69) is arranged in the liquid space (68).