CS208469B2 - Degasing column - Google Patents

Abstract

A degassing column has a several equally spaced plates that have perforations with a dia. 5 mm. There is a small gap between the edge of the plate and the inside of the column casing. These plates are supported around their circumference by several lugs fixed to the inner surface of the column. In addition there is a rectangular section ring (5 to 20 mm wide) welded to the inside surface of the column, that spans between the lugs. The ring sections end just short of the lugs to leave a free space between the end of the ring sections and the lugs. Passing through each plate are eccentrically positioned downcomer pipes, which extend down almost to the plate below. A metal disc, at least the dia. of the downcomer pipe, with no perforations, is placed immediately below the downcomer on the plate below. The height of downcomer extending above each plate sets the liq. level. The tops of the downcomers may be fitted with a sleeve to enable adjustment of the height above the plate. Used in degasification columns, e.g. to eliminate monomers from polymers. Design avoids solid deposits on the plates and column walls. Because the ring is welded to the column it does not have to be supported.

Description

(54) Degassing column

The invention relates to a degassing column, in particular to the separation of monomers from polymers present in suspension.

In the known degassing column, the punching of the perforated days, spaced apart from one another in the column casing, to the wedge holders mounted on the inside of the column casing and securing them with wedges brings the advantage that the cross-section of the column ae fully utilizes up to the column wall moreover, no solids are deposited in the region of the column walls. However, this solution is not entirely satisfactory, since the bottoms are not guided correctly and reliably between the individual wedge supports, which serve as supports. This circumstance can cause deformation and possibly damage to the day, especially in the case of steam interruption, when at a relatively high height of the liquid on the days there is a considerable area load on them, or during the dismantling of the day.

In addition, due to the variety of polymers whose dispersions are to be treated in the degassing column to remove monomers, and taking into account the requirement for a higher degassing rate, the distance between the upper end of each drain shaft and the respective bottom can be varied.

The essence of a degassing column, consisting of perforated bottoms arranged in a column casing spaced apart from one another, leaving as little gap as possible between each bottom and the column casing and having openings in the bottoms having a diameter of less than 5 mm, passing each day at least one eccentrically arranged discharge shaft and at least one eccentrically arranged supply shaft terminates above each day, whereas under each supply shaft there is an impermeable surface on the bottom which is at least as large as the shaft cross-section according to the invention in that each bottom abuts a plurality of wedge holders mounted on the inner side of the column bed, as well as a ring arranged in the height of the wedge holders and mounted on the inner side of the column bed, the ring being at least in the region! key holders interrupted.

The blow-off column according to the invention is preferably designed so that a circumferential distance is left between the wedge holders and the ring on both sides of each wedge holder. The ring preferably has a rectangular cross section, is 5 to 20 mm wide and is welded to the inside of the column jacket.

The advantage of the degassing column according to the invention is that the spacing of the openings in the bottom can be, for example, 15 mm and then no solids deposits can be detected even at a support ring width of up to 20 mm. The deposition of solids on the column wall is also prevented by the fact that due to the low thermal insulation of the column on the inside of the column jacket, the vapor still condenses, which then flows as a liquid film and rinses the column wall.

In the degassing chamber according to the invention, the ring is connected to the inner wall of the column jacket, in particular by welding, and requires no further supports.

In the degassing column according to the invention, the impermeable bottom surface of each oven is equal to one to two times the cross-sectional area of the oven.

The spraying column according to the invention is further characterized in that the distance between the upper end of the oven and the sunny bottom is 80 to 400 mm, while the lower end of the oven is 10 to 100 mm above the bottom of the substructure.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a longitudinal cross-sectional view of a degassing column with an enlarged cut-out of the wedge-fastening region; FIG. 2 is a sectional view taken along line 11-11 of FIG. FIG. 3 is an enlarged view of the mined attachment of FIG. 2 after the bottom has been removed; and FIG. 4 shows an enlarged view of the wedge attachment of FIG. 2 after the bottom has been removed.

A plurality of perforated days 2 are arranged one above the other at the bottom of the column 1, with each between. A free gap J is left through the bottom 2 and the column jacket 1. Above each day 2 a feed shaft 2 extends eccentrically, while each outlet 2 passes an eccentrically arranged discharge shaft 6. A cover plate 8 is placed below the feed shaft 2. The bottom 2 always rest. onto a plurality of wedge holders 2 attached to the inside of the column jacket 1. Moreover, each bottom 2 abuts a ring 10 of rectangular cross section welded on the inside of the column jacket 1, the ring 10 being interrupted in the region of the wedge holder 2.

According to FIG. 4, a circumferential distance 11 is left between the wedge holder 2 and the ring 10 on both sides of the wedge holder 2.

Claims (5)

SUBJECT OF THE INVENTION A degassing column with perforated bottoms arranged spaced apart from one another in a column casing, leaving as little gap as possible between each bottom and the column casing and having openings in the bottoms having a diameter of less than 5 mm passing through each day at least one eccentrically arranged discharge shaft and above. at least one eccentrically arranged feeder shaft terminates each day, while below each feeder shaft there is an impermeable surface at the bottom which is at least as large as the cross-section of the feeder shaft, characterized in that each bottom (2) bears on several wedge holders ( 9) mounted on the inside of the column jacket (1) as well as on the ring (10) arranged at the height of the wedge holders (9) and fixed on the inside of the column jacket (1), the ring (10) being at least wedge dr-- '-. i (9) interrupted. 2. A damping column according to claim 1, characterized in that a circumferential distance (11) is left between the wedge holders (9) and the ring (10) on both sides of each wedge holder (9). . 3. Drainage column according to items 1 and 2, cross section. 4. Degassing column according to items 1 to 3 5 to 20 mm. 5. The degassing column according to items 1 to 4 with the inside of the column jacket (1). characterized in that the ring (10) has a rectangle, characterized in that the ring (10) is wide, characterized in that the ring (10) is welded 4 sheets of drawings Severography. n. plant 7, Most