CS253178B1 - Cooled absorption column tray - Google Patents

Abstract

The cooled stage of the absorption column for gas purification has a pipe system formed from an even number of at least six circular segments, consisting of straight pipes of different lengths and elbows of the same angle and radius of curvature, each segment being formed from an even number of two or more pipes wound into a meander so that the connection of the pipes for the inlet of the cooling medium and the pipes for the outlet of the cooling medium is made in the middle of the segment. Two adjacent meanders have a reversed winding and one common inlet chamber and outlet chamber.

Description

The present invention relates to a cooled tray of an absorption gas purification column and to a pipe arrangement of a tray cooling system with a circular or peripheral overflow.

The absorption system cooling system is a very important part of the absorption column because it dissipates the heat generated by the absorption of the gas constituents absorbed by the absorption liquid and directly depends on the absorption capacity of the column for its proper function.

The existing cooling system is formed in each layer by a series of parallel tubes interconnected serpentine or by a single coiled tube.

This design is unsatisfactory for columns with high cooling capacity on the palate, because with increasing amount of coolant the diameter of the cooling tubes needs to be increased, thus reducing the necessary increase of heat exchange surface on the palate. This reduces the number of cooling layers at a limited height between the trays. By extending the cooling pipes, the pressure drop of the cooling medium is increased and the unit weight of the cooling system is increased.

The aforementioned disadvantages are overcome by a refrigerated tray of an absorption column comprising a tubular system for the passage of a cooling medium according to the invention, wherein the tubular system is formed of an even number of at least six circular segments consisting of straight tubes of different length and elbows of the same angle and radius. Each segment is formed by an even number of two or more meander-wound pipes such that the connection of the coolant inlet and coolant outlet pipes is in the middle of the segment. The windings of adjacent segments into the meanders are always inverted, and their supply pipes are connected to one inlet resp. output chambers together for all cooling layers. The tubes of the adjacent layer segments are offset from each other by half the pitch in planes perpendicular to the axis of the tubes.

The arrangement of the tray cooling system according to the invention allows the selection of the economically and computationally most advantageous pipe diameter associated with the choice of virtually any number of parallel coolant inlets maximally covering the tray floor with cooling pipes at minimum layer height, thereby achieving maximum lacquer loss of coolant refrigerant, and the minimum weight of the cooling system per unit of cooling capacity.

1 is a plan view of the cooling tubes and FIG. 2 is a side view of the individual layers of tubes placed one above the other (section a-a, b-b).

FIG. 1 shows segments 1, 2, 3 consisting of coolant inlet pipes 8, coolant outlet pipes 9 and elbows 10. Segment 1, 2 has a common inlet chamber 4 and segment 3 and the other has a common inlet chamber 6. The coolant outlet chamber 5 is connected to the segment 1 and the other, and the outlet chamber 7 is connected to the segment 2, 3.

2 shows the offset of the tubes 8, 9 in the individual layers 11, 12, 13 by half the pitch.

Claims (2)

SUBJECT OF THE INVENTION A refrigerated tray of an absorption column, comprising a tubular system for the passage of a cooling medium, characterized in that the tubular system is formed of an even number of at least six circular segments (1, 2, 3) consisting of straight tubes of different length and elbows of equal angle and radius Each segment consists of an even number of two or more meander-wound pipes such that the coolant inlet and coolant outlet pipes (9) are connected in the center of the segment, while two adjacent meanders each have a reversed winding and one common inlet chamber (4, 6) and an outlet chamber (5, 7). 2. A refrigerated tray according to claim 1, characterized in that the tubes of the segments of adjacent layers (11, 12, 13) are offset from each other by half a pitch in planes perpendicular to the axis of the tubes.