DE1192621B - Sieve tray for mass transfer columns with a large diameter - Google Patents

Description

Sieve tray for mass transfer columns with a large diameter The invention relates to a sieve tray for mass transfer columns, for example absorption towers, which have such a large diameter that the sieve plate for reasons of strength must be stiffened.

Such floors are common. They essentially consist from the sieve plates, the support elements for stiffening the plate and the and discharge devices for the liquid. With them gas flows from below through the openings of the plate, while above the plate there is a layer of liquid which is bubbled through by the gas. This creates a large mass transfer area between gas and liquid, which is usually created by a layer of foam is enlarged above the liquid. The intimate mixing of gas and liquid is decisive for the so-called efficiency of the soil, which z. B. at the absorption of nitrogen oxides is a measure of how far the equilibrium is between gas and liquid is reached and how many units of measure is absorbed will. The efficiency is therefore a parameter for the performance of the floor. The known sieve trays have the disadvantage that this efficiency is relatively is small. For example, sieve trays are used to absorb nitrogen oxides Value mostly between 10 and 50 504 / o. It is mainly dependent on the gas concentration.

The invention avoids the disadvantages that have arisen up to now, and the absorption effect of the floor is improved.

That of the invention in the new sieve tray for mass transfer columns The idea behind the large diameter is that two sieve plates are connected to each other at a distance by supporting elements.

This has the advantage that now two sieve plates one represent self-contained supporting structure. This new sieve bottom has the Effect of two single sieve trays arranged closely one behind the other, while the construction effort is smaller than with two single floors. The double sieve bottom has the advantage of one much higher efficiency. Compared to the efficiency of the single sieve bottom rE it is: Wd = WE + WE (1 WE) = WE (2 WE) - It is therefore particularly important for small ones WE values are significantly greater than that of the individual floor. For example if the efficiency of the single sieve bottom 0.2 the double floor has fla = 0.36. It will be here assumed that the concentration of the liquid on both sieve plates is the same is great.

The entrainment of liquid from the lower to the upper plate is already taken into account here.

So that the liquid flowing through the upper sieve plate without hindrance reaches the lower sieve plate, it is provided that the support elements for the Have breakthroughs flowing through the liquid.

The subject of the invention is shown in an exemplary manner in the drawing Embodiment shown.

The new sieve tray construction is located between the walls 1 of the mass transfer column arranged, the upper sieve plate 2 with the lower sieve plate 3 through the between attached to them support structure 4 connected to a self-supporting unit is. The liquid passes through the overflow pipe 5 via the cup 6 to the upper one Sieve plate 2 and, after flowing through it, passes through the overflow pipe 7 via the Cup8 by means of the openings 9 arranged in the supporting structure 4 lower sieve plate 3. Due to the closed sieve bottom construction, nevertheless the parts 2 to 4 can be made of thin sheet material, high rigidity achieved. That from below Gas flowing into the column flows one after the other through the sieve plate and the liquid layers on it.

Claims (2)

Claims: 1. Sieve tray for mass transfer columns with large Diameter, thus identified draws that two sieve plates (2 and 3) at a distance through Support elements (4) are connected to one another. 2. Sieve tray construction according to claim 1, characterized in that that the support elements (4) have openings (9) for the liquid to flow through.