DE547722C - Washing and reaction towers - Google Patents

Description

The task of bringing gases or vapors into intimate contact with a liquid in order to performing a reaction between the two is usually carried out in the art in Wash-5 or reaction towers in which the gas flows from bottom to top through packing or Internals rise while the liquid, which can be regulated according to the amount, is abandoned above and when trickling down over the packing on the walls of the Gases presents the largest possible surface. The fillers are probably always from borne a grate, the free cross-section is dimensioned so large that it is the rising To the gases as low a resistance as possible, at least a lower one, when the gas finds him in the tower filling. Such a dimensioning of the grate seems to be therefore of importance, because at the same time, in addition to the rising gases, those from the tower incoming liquid must drain freely through the grate, otherwise a back pressure of the Liquid could enter the tower, a disturbance that can manifest itself in that When the tower is in operation, the gas exiting at the top entrains more or less liquid. It has now been found in the operation of such towers that their effectiveness is given The amount of gas and liquid can increase significantly if you use the appropriate Dimensioning of the grate ensures that a certain amount of liquid in the tower filling is dammed, but must not be so large that a back pressure of the liquid up to its upper end can enter, whereby there is a risk of entrainment of liquid were.

The test results in the correct grate size for certain gas and liquid quantities determined, it immediately follows that one change in these quantities also changes another Grate cross-section required if the same amount of liquid in the Tower should be present, or that otherwise operating fluctuations lead to a malfunction would result in the operation of the tower.

According to the present invention, this difficulty is now overcome in that the Grids are provided with regulating devices that can be operated from the outside, which allow the free cross-section that they offer the liquid drainage during operation change. For this purpose, the task of the grate is broken down into that of one Support grate for carrying the tower filling, but otherwise with a large, free cross-section and that of a grate with variable cross-section, which we refer to as accumulation grate and which consists in accumulating the liquid in the tower as it is for the straight the task at hand seems desirable.

An embodiment of the inventive concept is shown in the figure. By doing Tower 7 is the support grid 1, which is provided with holes 5. Below the support grid the storage grate 2, which can be rotated around the bolt 8 and has the holes 6, is arranged, which when rotated accordingly

cover the holes in the support grid and thus reveal the full cross-section of the support grid can. On the other hand, the cross-section can be adjusted by rotating the storage grid in the opposite direction reduce the size of the support grid as required. To carry out this cross-sectional change a toothed ring 4 is arranged on the storage grate, η which the toothed wheel 3 engages, its adjustment by the handwheel 9 from outside

to the tower can be done.

According to the invention, towers can also have several towers arranged one above the other Grates are arranged, each with a cross-section that can be changed in the company is carried out in such a way that any amount of liquid to be set over each grate is removed.

The invention allows absorption and reaction towers to operate at a given rate Gas and liquid quantities with a significantly higher conversion or absorption value than is generally the case with towers with free-flowing liquid. In addition, when the invention is used, it is possible to arrange fewer or, in the limit case, no packing elements on the grids or to replace the filling with a simpler and cheaper device. Further it is possible to reduce the irrigation of the tower considerably without affecting the absorption effect subsides.

In order to be able to keep the amount of the damming within favorable limits, are natural Facilities required that allow the height of the damming to be recognized from the outside. It For example, the booth could be set up with the help of taps distributed over the height of the tower

determine the build-up. There is a control method that works with great accuracy z. B. in that one measures the resistance 4 °, which the gas when passing through the pent-up liquid experiences. This resistance is proportional to the water level or In other words, the greater the water level, the greater the resistance and the greater the 45 the pressure drop of the gas in the tower. To increase the pressure drop and thus the resistance measure, one uses two manometers or a differential manometer in a known manner, which is the difference between the 50 pressure of the entering gas and the pressure of the gas in the tower. Depending on this information, the change in free cross-section of the grate can be brought about by hand or automatically. The automatic 55 Regulation takes place in a known manner, for. B. with the help of a controlled by the measuring device Auxiliary engine.

Claims (2)

Patent claims: 1. Washing and reaction towers, in which gases are treated with liquids, whereby gases and liquids pass through grates, characterized in that the grids are provided with regulating devices that can be operated from the outside and that allow the free cross-section, which they offer the liquid drain to change during operation. 2. Apparatus according to claim i, characterized by movable, grate-like devices arranged below the supporting grids. 1 sheet of drawings