RU2002132618A

RU2002132618A - SHIPPING COLUMN

Info

Publication number: RU2002132618A
Application number: RU2002132618/15A
Authority: RU
Inventors: Маркус Фишер
Original assignee: Зульцер Хемтех Аг
Priority date: 2001-12-05
Filing date: 2002-12-04
Publication date: 2004-06-10

Claims

1. A disk column (1) with flowing liquid (51) and drain shafts (3) for transferring liquid between adjacent plates (2), moreover, the liquid is transferred in each drain shaft (3) to a loaded plate through a number of outlet openings (32) , and the liquid flowing from the outlet openings (32) in the form of jets (60), when it enters the loaded plate, passes into the flow field (6) diverging in separate sections, which has transverse components with respect to the longitudinal direction (61) of the main stream flow rate, characterized in that a) under the outlet openings and at a distance from the loaded plate, or b) on and above the outlet openings or c) behind the outlet openings there are deflectors (4), respectively deflecting the liquid impulse in accordance with the diverging flow field and contributing to the formation of transverse components velocity, so that the longitudinal component of the flow velocity in each plane perpendicular to the direction of the main flow has a substantially constant profile, while the outlet openings are predominantly foam made of different size, the central portion is smaller than the adjacent wing portions.

2. A column according to claim 1, characterized in that the outlet openings (32) are arranged in a row, each of the deflectors (4) corresponds to one of the outlet openings (32), with each deflector adjacent directly to the edge (33,34) of the corresponding an outlet (32) to which it is, for example, welded.

3. The column according to claim 2, characterized in that the outlet openings (32) are located in the circular segment (32 ') next to the wall (10) of the column, while the liquid (51) flowing from the outlet openings (32) is able to deflect, on the one hand, by the wall of the column, and on the other hand, at least partially, by the deflectors (4), and that the outlet openings (32) are located on the vertical segment (31 ') of the wall, with each deflector being made spatula-shaped, and its position and the slope corresponds to the called transverse velocity components.

4. The column according to claim 3, characterized in that at least partially the outlet openings (32) are made due to the internal surfaces partially cut and bent around the edge (34), the bent internal surfaces form spatula-shaped deflectors (4), moreover, the deflectors have different tilt angles φ, and with respect to the center Z in the central part of the row, the tilt angle φ gradually increases with distance from the center Z, in particular from 0 to 60 °, mainly to 45 °.

5. A column according to one of claims 1 to 4, characterized in that under or in front of the outlet openings (32) of the individual or all drainage shafts (3) there is one flow divider (7) in the form of an overflow partition, at least at least, part of the deflectors (4) is located on the overflow edge (70) of the flow divider to which they, for example, are welded.

6. A column according to claim 5, characterized in that the flow dividers (7) are each made of a strip of sheet material, while the deflectors (4) are made of a strip of sheet material by cutting and bending parts of the surfaces.

7. The column according to claim 5 or 6, characterized in that the deflectors (4) are only parts of the flow dividers (7).

8. A column according to one of claims 1 to 7, characterized in that the outlet openings (32) are each located in a wall segment that forms the lower floor of the drain shaft (3) or part of the lower floor, and the wall segment is, in particular, a horizontal sole (31) or a vertical segment (31 ') of the wall, while the part of the drain shaft, occupying a portion of the space between the inner wall (30, 30b) and the wall (10) of the column directly above the sole (31), is made narrowed down.

9. A column according to one of claims 1 to 8, characterized in that the plates (2) have many flakes (20), each of which has the shape of a trapezoid, the non-parallel sides (21a, 21b) of the trapezoid being longer than the base (22), the bases (22) are oriented across the direction (61) of the main flow, the sides of the flakes are made in the form of slits (23), the flakes (20) are narrowed in the direction (61) of the main flow, and mainly all flakes (20) are oriented identically and are located on the correct dot lattice (25).

10. The column according to one of claims 1 to 9, characterized in that it has a circular cross-section, a drain shaft (3) is built into each plate (2), while the drain shafts of adjacent plates are diametrically relative to each other.