DE2108629A1 - Falling film exchange column - with alternating horizontal and vertical corrugated sheets - Google Patents

Abstract

The assembly is fabricated from alternate layers of horizontal and vertical corrugated sheets. Slight inclinations of the corrugation optimise the liquid flow distribution. Liquid is charged onto the horizontally corrugated sheet forming a falling film, which is transferred at the numerous corrugation contact areas to the sheet having vertical corrugation, thus obtaining optimum film distribution and mixing. Such a column design realises a relatively high separation efficiency at max. column throughput and minimum pressure drop. esp. suitable for high-vacuum process conditions.

Description

Substance exchange column The present invention relates to Mass transfer columns with internals which have trickle surfaces, with a Part of the floodplain is provided with corrugations, the height and valley lines of which are parallel run to the column axis.

Columns of this type in honeycomb form are known. It is also known To form similar column inserts from winding cores areil the flat sheet metal or Braid before wrapping with vertical corrugations is provided.

Mass transfer columns of this type have the advantage that only one low pressure drop of the gaseous phase takes place along the internals. the Theoretical number of plates, however, is relatively low in such columns because the liquid has a relatively short length when passing through the internals put back, so that you either increase the height of such columns considerably, or must use a plurality of downstream columns in order to achieve the necessary separation efficiency to provide.

There are also 3toffauschkolonnen known whose internals from with Expanded metal sheets provided with corrugations, flat fabrics or the like. whereby the individual pouring surfaces packed next to each other have corrugations, whose Elevation or valley lines at an angle of preferably 45 ° to the column axis get lost. Here, sheets alternate with one another, in which the angular inclination the wave troughs or wave crests to the column axis alternately under equally large Angular amounts - but inclination in opposite directions - run, so that at an angle of 450 sheets adjacent to the column axis have a relative angle of the corrugations of have about 900 to each other. One wants to achieve through this that a weird or ziek-zag shape of the liquid and gaseous phases results, which flow through the trickle column in countercurrent.

This column type has one compared to the first type Increase in the separation performance, which, however, comes at the price of a considerable pressure drop which is particularly evident in high-vacuum columns or in a change in the Adversely affect throughput performance.

There are also columns known in which coaxial cylindrical sheets are used, which are provided with corrugations, the height and valley lines in Planes run perpendicular to the column axis and such a large distance from one another exhibit that a slight pressure drop is caused. These columns have but the disadvantage that there are no opportunities for exchange between the individual trickle areas exist. The combination of volume and flow area for columns with high throughput is also insufficient. Attempts have been made with such columns, the latter Disadvantage due to the filling of full bodies between the cylindrical sheets to prevent. However, these packing elements again increase the pressure loss of the gaseous ones Phase when flowing through the column.

The present invention has the task of eliminating the disadvantages resulting from the types of mass transfer columns described above, to be avoided and with a low pressure drop and high throughput a relatively high one To achieve separation performance.

This object is achieved according to the invention in that the flow surfaces, where the valley and height lines of the corrugations run parallel to the column axis, alternate with trickle areas, where the valley and contour lines of the corrugations in Planes run which are essentially perpendicular to the column axis and that the flow surfaces have a large number of points of contact with one another.

According to a preferred embodiment of the invention, the Task of the liquid on the flow surfaces, whose corrugations in a vertical to the column axis lying plane. This is where the loading takes place the one provided with vertical corrugations, that is to say parallel to the column axis Irrigation surfaces indirectly via the contact points of the two types of irrigation surfaces.

The invention has the advantage that through the perpendicular Corrugations the flow resistance of the gaseous phase is significantly reduced, while through the essentially horizontal corrugations of the other flow surfaces it is ensured that the length of the path of the liquid phase is increased considerably can be. The multitude of points of contact between the adjacent trickle areas causes a perfect exchange of the liquid phase between the flow surfaces. This results in the uniform distribution of the flowing liquid phase over the column cross-section significantly increased. The number of corrugations per unit of length can be used for the trickle areas with horizontal corrugations be larger or smaller than with the giant surfaces with vertical corrugations. This allows the length of the fluid path that Throughput and a number of other characteristic sizes of the columns vary in the simplest possible way.

In some cases it can be advantageous that the with essentially horizontally running corrugations provided trickle areas in a partial area (e.g. in the upper area of the drainage area) a slight incline towards the Horihostalen to have, those in another sub-area (e.g. in the lower area) into a corresponding one oppositely directed slight inclination of the corrugations passes over, the transition point has an exactly horizontal course of the corrugations.

In other cases it may be more advantageous that the with in the week horizontal corrugations provided trickle column surfaces with respect to the course of the Wave troughs and peaks have a slight incline that is uniform over their entire course opposite the column axis, with alternating flow surfaces with horizontal corrugations an inverse angular inclination of the same magnitude have opposite the axis.

The invention is not limited to flat sheets provided with corrugations, but can also be applied to closed, cylindrical or elliptical flow areas can be easily transmitted if only the condition is met that essentially Alternate horizontal corrugations with vertical corrugations.

The idea of the invention is not based on the formation of the giant surfaces limited in the form of approximately sinusoidal elements, but the trickle areas can also have a ziok-zaak-shaped or another type of profiling, without changing anything in the actual idea of the invention. The floodplain can be provided with or without openings. In the former case, perforated Sheets or expanded metal can be used. The flow areas can also change the shape of corrugated fabrics or braids.

The invention is based on the drawings, however, only preferred Represent embodiments of the inventive idea, for example explained in more detail.

They show: FIG. 1 a cross section through a mass exchange column, Fig. 2 is a perspective view of a broken-out part of the trickle built-in, Fig. 3 is a perspective view of an embodiment of with substantially flow surfaces provided with horizontal corrugations, according to FIG The jacket of the mass transfer column is provided with the reference number 1. Between the different trays of the exchange column arranged one above the other. their arrangement for the purpose of simplification of the drawings is not shown here graphically, are located in each case Flow surfaces, on the surface of which the liquid runs downwards. These trickle areas BesWhen each from individual trickle elements 2 and 3, whereby the trickle elements 2 with horizontally and the trickling elements 3 with vertically extending corrugations are. In the preferred embodiment shown in the drawings the flow surfaces are sinusoidal and can be made of corrugated iron, for example exist. According to the arrangements shown in the drawing are in each case alternating one provided with horizontally extending grooves trickle surface 2 and one with vertical running grooves provided trickle surface 3 arranged one behind the other. The respectively one behind the other, the trickle surfaces 2 and 3 are at their contact points 4 attached to each other, for example with the help of screws or welding can be done.

In the drawings, however, only a few attachment points are indicated. Since the representation in Fig. 2 is a broken out of the trickle surface Part is, it is not shown here that the upper boundary stiffener of the upper Groove is bent upwards so that the liquid on both surfaces of the flow surfaces 2 is abandoned. ' In Fig. 3 a giant surface 2 is shown, in which adjacent corrugations are not parallel, but alternating slightly are inclined to one or the other side end, thereby for the a slight unilateral gradient should be observed when the liquid is running down. In this In the illustration, the troughs are denoted by 5 and the crests of the waves are denoted by 6. the Deflection points of the trickle areas are in the wave troughs 5 by an uninterrupted Straight line 5t and marked on the wave crests 6 by an interrupted straight line ^ 6 '.

Expectations

Claims (8)

A n p r ü c h e 1. Mass transfer column with internals, which Have flow surfaces which are at least partially provided with corrugations, their Elevation and valley lines extend parallel to the column axis, characterized in that that the Rinxel surfaces (3) whose corrugations run parallel to the column axis Have height and valley lines, alternate with trickle surfaces (2), their corrugations Elevation (5 ') and valley lines (6'), which essentially in the Kolonnenacllsö vertical planes, and that di. Flood surfaces (2,3) a multitude of points of contact with one another (4) have. 2. Stoffaustanachkolonne according to claim 1, characterized in that that only the flow surfaces (2), the corrugations of which have height (5t) and valley (t) lines, which lie in planes running perpendicular to the axis of the column, at Zuftibrungen for the task of the liquid phase are connected, 3rd mass transfer column after Claim 1 or 2, characterized in that the juxtaposed trickling surfaces (2,3) by welding, screwing, riveting or the like. are connected to each other. 4. Mass exchange column according to one of the preceding claims 1 to 3, characterized in that the Rles surfaces (2) whose corrugations height (5 ') and valley lines (6'), which run in planes perpendicular to the column axis, in some areas a slight inclination compared to that perpendicular to the column axis Have levels, while in other areas one correspondingly opposite directed inclination is provided. 5. Mass transfer column according to one of claims 1 to 3, characterized characterized in that the flow surfaces (2), their corrugations height (5>) and valley lines (6 '), which run essentially in planes perpendicular to the roller blind axis, with respect to the course of the height (5 ') and valley lines (6') of the corrugations a slight have a one-time inclination towards the above-mentioned planes over the entire course, alternating flow surfaces (2) of the aforementioned type reverse angular inclination of the same magnitude compared to that to the column axis have vertical planes. 6. mass transfer column according to one of the preceding claims, characterized in that the flow surfaces (3), their corrugations, height and valley lines have, which extend parallel to the column axis, a larger, smaller one or have the same number of corrugations per unit length as the flow surfaces (2), the corrugations of which rise (5 ') and valley lines (6'), which essentially 'ifr Planes run perpendicular to the column axis. 7. mass transfer column according to one of the preceding claims, characterized in that the flow surfaces (2,3) are provided with openings. 8. mass transfer column according to claim 7, characterized in that that the flow surfaces (2,3) consist of expanded metal, fabrics or braids are provided with corrugations.