CS200730B1 - Annular rectification level with the circuit liquid flowing - Google Patents

Description

The invention relates to an annular rectification tray e by circumferential liquid flow and baffles dividing the liquid flow circumferentially into a plurality of parallel streams in which the flow rate of the liquid in the individual streams is influenced by different heights.

The known rectification of the tray by the circumferential flow of the liquid has different configurations and aspects of the fluid flow, but the disadvantage of all these solutions is that the large tray dimensions result in an uneven distribution of the flow of liquid on the tray surface. This uneven flow occurs due to the fact that the liquid flowing on the circular path is pushed by the centrifugal force towards the outer circumference of the tray and, secondly, the liquid flowing on the outer circumference has to run longer than the liquid in the plate near the center of the tray. The consequence of this is an uneven flow of steam through the palate (especially at the sieve palate) and the formation of stationary areas in which the liquid does not flow and a different concentration profile on the palate. Thus, ae significantly reduces tray efficiency, particularly under conditions where there is no significant mixing of liquid and vapor across the tray surface.

partial solution of the problem is achieved by solving and dividing the liquid stream through the baffles into several parallel streams and thereby reducing the uneven flow and stationary areas due to the influence of centrifugal eils. However, with this solution, ee will increase the effect of unequal flow of liquids in the individual streams due to the difference in flow path length in the individual streams.

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The above-mentioned disadvantages are eliminated by the annular rectifying tray according to the invention, which consists in adjusting the hydraulic conditions for the flow of liquid so that the amount of capillary flowing through the individual streams is approximately proportional to the length of the segments and the desired height of the liquid. . We also adjust the exact height of the overflow edges for individual streams taking into account the hydraulic conditions for gas flow through the storey and the required concentration profile in the individual plateaus of the storey.

An advantage of the solution according to the invention is that it substantially increases the efficiency of the rectification tray and thus of the entire rectification column. This makes it possible to reduce the number of trays and hence the cost of manufacturing adjustments for the same requirements of the rectification separation parameters. As a result of the lower hydraulic resistance of the rectification column, the lowering of the cost is also lower.

An exemplary embodiment of an annular rectification tray and a peripheral flow of liquid according to the invention is shown in the drawing, wherein FIG. 1 is a plan view of a mesh tray and two overflows; 3 is a cross-sectional view of the BB alta floor at the exit overflow.

Figure 1 shows a sieve tray and two overflows, where the effective tray surface is formed by a perforated sheet χ shaped as part of the annulus limited by the outer ring 6 and the inner circumference of the tray. It consists of an inlet overflow 5, an outlet overflow 5, an overflow box 6, a calming well 8, a damper 8. There are baffles 10 disposed on the upper surface of the perforated portion of tray X that divide the effective tray area in the fluid flow meter into several parallel segments. The inlet nebo or outlet £ overflow or both simultaneously have a variable height, as can be seen in detail in Fig. 3, either for each segment or group thereof. The baffles 10 wells are continuous from the inlet £ to the outlet £ overflow, or can be terminated in a small distance from the overflow that has no variable height.

Claims (2)

An overflow rectification tray and a circumferential fluid flow and baffles aligning the effective tray area in the fluid flow direction to multiple parallel segments, characterized in that the inlet (5) or outlet (6) overflow or both simultaneously have different for each aagmant or group thereof overflow height. An annular rectifying tray according to claim 1, characterized in that the height of the outlet (6) or inlet (5) overflow or both simultaneously and in the direction towards the outer periphery is reduced either continuously or by step.