CS203154B2 - Filling corpuscles for the columns - Google Patents

Abstract

This packing (1) is intended for column apparatuses used in particular in mass transfer processes. It has a circular cylindrical shell (2) having perforations in the form of isosceles triangles (3). The base sides of these triangles (3) are perpendicular to the cylinder axis, and the triangles (3) are alternately orientated in opposite directions. The perforations have a spacing of about 1/4 of the cylinder diameter from the edge of the shell (2) and are formed by the triangles (3) being cut along the sides and bent inwards along the base. In order to achieve a more uniform distribution of the liquid or the gas over the entire column cross-section and as a result to significantly reduce the resistances to flow, the apices of the triangles (5) are connected to one another by a connection piece (6) having at least one opening (7). <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to packed bodies for columns used for fabric separation processes.

Known and previously used columns for filling columns have a variety of shapes and the most widely used are Raschig rings with smooth or wrinkled shell surface, Pall rings with rectangular holes in the shell surface and arcuate surfaces bent to the axis of the ring, perfumes with round holes in the shell and in the inner dividing wall of the ring, as well as the rings most closely related to the rings of the invention, having in the sheath apertures in the shape of isosceles triangles cut along the shoulders and triangular cuts bent along the base towards the center of the ring and Perforated planes formed by cutting flags of arbitrary shapes in the cut-outs of the mantle surface, in particular in the form of geometrically co-ordinate isosceles triangles, similar to cut-outs in the mantle, are arranged in the flow space. bent along the base toward the axis of the ring at any angle.

The diversity of the design of known packings and the experience of their use in service, suggests a constant search for new solutions to help eliminate the practical benefits of flow resistances, the uneven distribution of liquid across the column cross section, and the retention of significant amounts of liquid. not participating in the separation process.

The present invention overcomes these drawbacks by improved column packing design which allows uniform distribution of fluid or gas across the column cross-section to substantially reduce flow resistances.

The essence of the packing body is that within the free space of the ring-shaped packing body there are intermittent conical surfaces which are joined together by means of a plate in the shape of any polygon or circle and provided with an opening of any shape but preferably circular.

The column packer, the ring of the present invention, is characterized by low flow resistances, a more even distribution of fluid or gas along the column cross-section, and due to the occurrence of a hole in a polygonal or circular plate connecting conical surfaces within the ring space, also accurate and direct by flowing fluid to opposite walls of the individual ring compartments. This is particularly important when the Kla203154 rings are split in vertical layers when used to remove dust from air or gases.

The invention will now be explained in more detail by way of example.

In the accompanying drawings, FIG. 1 shows a cross section of the ring and FIG. 2 shows a longitudinal section of the ring. The ring-shaped filler body 1 formed of any material has in its casing surface 2 apertures 3 in the form of isosceles triangles cut along their shoulders and arranged about a quarter of the height from the lower or upper edge of the ring arranged triangular slots 4 bent according to the base of the triangle The intermittent conical surfaces 5 formed by the bending of the cut-outs 4 arranged within the space of the ring 1 are connected to each other by means of a polygonal or circular plate 6 provided with at least one arbitrary, preferably circular orifice 7.

This opening causes the fluid penetrating through it to wipe the inner conical surface and thereby increase the contact surface of the phases. The triangular slots 4 bent toward the axis of the ring give it additional rigidity and increase its bending strength, which allows to produce the ring with thinner walls and thereby reduce the weight of the column packing.

Column packing bodies according to the invention increase the packing capacity of the columns with extensive use in separation processes, for example by absorption, desorption, distillation, rectification and extraction. They can also be used to remove mist, dust or moisture from the air with good results.

The improved properties of the packings according to the invention will be elucidated by way of example.

Claims (1)

Packing column for separating fabric in the form of a ring having apertures in the shape of isosceles triangles in its casing area and at a quarter of a height from the lower or upper edge of the ring arranged triangular cuts bent along their base towards the center of the ring The pressure absorption of acetylene in water replaced the 25-diameter raschig rings of the invention with a diameter of 50. This substitution allowed the decommissioning of one column, having previously treated two 440 m ^{3 of} gas per hour and one capable of processing 950 m ³ after replacement. gas per hour and there are still reserves. Initially, 50% by volume of acetylene remained on the raschig rings, but only a few percent remained on the new packings. The improved results of the use of the cartridge bodies according to the invention allow for a closed and at the same time free space of the ring, especially in a layered arrangement for cleaning the gas from dust. Already with the use of two liters of water per 1,000 liters of dusty gas, dust removal with efficiency has been achieved 99.8% whilst maintaining completely clean packing bodies. The layered bodies, when dehumidifying the gas in the wet state, have the advantage that they do not become clogged. Experiments have shown that these packed or loosely packed packed cartridges automatically and evenly distribute fluid throughout the cross-section of the bed. This advantage substantially affects the degree of precision of the division which increases for these rings with their size dimensions. It has also been found that the use of these packing bodies can reduce the cross-sectional area of the column as well as the amount of its packing compared to other column packing. The experiments with packed bodies according to the invention were carried out on both laboratory and pilot scale and their results were in line with expectations. according to the invention, their peaks are directed alternately against each other, characterized in that the intermittent conical surfaces (5) formed inside the free space of the ring (1) are connected to each other by a polygonal or circular plate (6) provided with at least one arbitrarily best circular hole (7) ).