DEP0002126DA - Process for the absorption of nitrous gases - Google Patents

Description

For the production of nitric acid from nitrous gases, e.g. from ammonia combustion gases, absorption towers of usually considerable height and volume are used. Almost the entire interior of these towers is exposed to fillers so that the sprinkling liquid flowing in from above is distributed as evenly as possible over the entire tower cross-section and can come into intimate contact with the gases flowing upwards from below.

In contrast to other absorption processes, the surprising observation was made that higher acid concentrations can be achieved when processing nitrous gases if the absorption towers only have a low-height packing layer in their lower part and an empty tower space of significant size above it. The upper part of the absorption tower that is not filled with packing acts in this case as an oxidation space, while the tower space occupied by the packing acts as an absorption space. Since the oxidation of the nitrous gases that precedes the absorption consumes considerably more time than the actual absorption, practically the same or better success than the acid towers that are common today and completely filled with fillers is achieved, despite the significantly reduced packing height.

Further details can be seen from the drawing. 1 shows the absorption towers customary today and FIG. 2 shows the method of operation according to the invention.

So far, acid towers 1 (FIG. 1) of round or rectangular cross-section, the entire interior of which is filled with fillers 2, have been used. The gases to be absorbed enter the lower floor of the tower through a line 3 and are sucked off through a pipe 4 at the top of the tower. A pump 5 conveys the sprinkling liquid draining from the tower through the cooler 6 to the distribution device 7 attached to the top of the tower so that it can flow down from there onto the packing layer.

In the procedure according to the invention (FIG. 2), acid towers 8 of practically the same volume are used. The nitrous gases enter at 9 and leave the tower through line 10. The sprinkling liquid is taken from the lower floor of the tower by a pump 11 and conveyed via the cooler 12 to the distribution device 13 which is attached to the top of the tower. The filling body zone 14 has only 25% of the layer height that is used according to FIG. 1 in today's mode of operation. The tower volume above (75%) serves as an oxidation room.

Since the gases to be absorbed are primarily cooled in the packing layers, the operating temperature in the absorption tower according to the invention (Fig. 2) is somewhat higher than in today's acid towers (Fig. 1) better oxidizing effects achieved.

The absorption tower, which according to FIG. 2 has only a low packing layer, has the operational advantage that it offers considerably less resistance to the passage of the gases than today's acid towers which are fully packed with packing.

Claims (1)

Process for the absorption of nitrous gases, in particular ammonia combustion gases, in absorption towers exposed with packing, characterized in that the absorption towers have a packing layer (14) of low height only in their lower part and above that an empty tower space of significant size.