DE938370C - Reaction tower for the production of sulfuric acid - Google Patents

Description

Reaction tower for the production of sulfuric acid. The invention relates to a thermoplastic intended for the production of sulfuric acid Plastic existing reaction tower. It is known to use the walls of containers Lining plastic sheets or foils by placing the boards and foils on the Container wall to be glued. It is also known to be made from plastic sheets To arrange containers in a supporting structure.

Gluing plastic sheets and foils to container walls is cumbersome and time consuming, in particular requires taping the corners and Pay close attention to the grouting of a container so that there are no spots from the plastic remain uncovered. Another disadvantage of this type of lining lies in the Danger of leaks occurring during operation, which are often only discovered then can be if the container wall itself has already been attacked.

In order to produce stable containers from plastic sheets, must be made of For static reasons, a plate thickness can be selected that is suitable for reaction protection far exceeds the required strength. The manufacture of such containers is consequent expensive. Those made from plastic sheets also have this disadvantage Containers that are arranged in a support frame, because this is not the container but only has to absorb lateral loads. The plates must therefore be so strong that the required stability is given.

The one determined according to the invention for the production of sulfuric acid Reaction tower does not have the disadvantages indicated above, because he consists made of a sheath made of thermoplastic material, which is made up of individual, overlapped, manufactured and welded together tightly connected plastic films inside a tower-like shoring on an upper circumferential frame bar it is freely suspended.

According to the invention, the tower jacket is welded to it on the outside, non-load-bearing connection brackets made of thermoplastic material on the supporting structure, preferably on a cage-like part of the frame against the side Shifts recorded.

According to the invention, the tower ceiling is welded onto it on the outside Connection bracket made of thermoplastic material freely suspended on a roof structure and tightly connected to the tower jacket.

The reaction tower of the invention can have a basin at its bottom be provided, which is provided with an outer coating made of thermoplastic material is, with which the tower jacket hanging freely in the basin can be stretched by a trained connection part made of thermoplastic material is tightly connected.

A thermoplastic plastic is to be understood as a plastic which, like a polyvinyl plastic, has good chemical-mechanical resistance, has sufficient flexibility and elasticity and which can be welded. lets solder.

An example embodiment of a tower according to the invention is illustrated in the drawing. It shows Fig. I a view of a tower, 2 shows a section of part of the tower according to II-TI of FIGS. I and 3, FIG Section of part of the tower according to III-III of Figs. I, 2 and 4., Fig. Q. the top view on the tower part shown in FIGS. 2 and 3, FIG. 5 shows the suspension of the tower jacket on the supporting frame in section, FIG. 6 shows a section according to VI-VI of FIG. q. and Fig. 7 the gas discharge in section according to VII-VII of FIG. Q.

The supporting structure of the reaction tower illustrated in the drawing consists of uprights Al, which consist of two. U-irons are formed, which above to put on a protective roof extensions 31 'and below on one with Lead sheet covered base plate P made of concrete, stand (Fig. I and 3). The stand At the height of the tower ceiling, U carry an encircling, also made of two U-irons Frame latch C. The partially protruding U-bar is located in one of the inward-facing U-bars and wooden beams T with a rounded edge at the top. The thermoplastic Plastic film existing jacket i of the reaction tower is inside the tower frame freely suspended on the upper frame beam T (Figs. 3 and 5) by moving over the upper rounded edge of the beam T and guided on one of the U-irons of the frame ledger C is attached. The tower jacket i is also provided with brackets welded onto it on the outside 2 made of thermoplastic material connected to the supporting structure in places. the Stirrups are around vertical, by angle irons q. Flat iron attached to the support structure 3 out (Fig. 2, 3 and 5).

In order to support the tower jacket i laterally, this is over its entire Surrounded height or only over parts of this with a cage-like frame, according to the drawing consists of light wooden columns 5, which of the T- or L-shaped Bars6 existing cross bracing of the stand are carried (Fig. I, 2 and 3).

The also made of a thermoplastic material Ceiling 7 of the reaction tower is on the frame bar C supporting roof trusses S and S 'suspended by means of a bracket 8 made of thermoplastic material (Fig. 3 to 7). The edge of the tower ceiling 7 is bent downwards and connected to the tower jacket i tightly connected by welding or soldering (Fig. 5). Above this junction is the tower jacket i with the ceiling 7 by a welded or soldered, L-shaped Stiffening bar 9 connected from thermoplastic plastic.

The one provided at the bottom of the reaction tower. to absorb sulfuric acid Serving pool T 'is preferably made of lead or chemically resistant plastic produced and provided with a coating G made of plastic. The in the basin V is freely hanging tower jacket i with the cover. G by means of a expandable connecting part i 'made of plastic tightly connected (Fig.3). To initiate of sulfuric acid in the tower serve through the ceiling 7 pipes U, 'those of the crossbeams arranged in pairs and mounted on the girders S are borne (Fig. 3, 5 and 6). The pipes U, their connecting lines ii and the connecting lines A are made of plastic. The supply lines A are through pipe supports 12 made of plastic stored on the binders S and by means of slide 13 with the main line B connected.

A tight seal between the inlet pipe U and the chamber cover is achieved a conical tube 1q. made of plastic, which includes the inlet pipe U, goes through the ceiling 7 and is tightly connected to this by welding or soldering is (Figs. 6, 7). The upper end of the tube 14 has a flange i4 on which a disc 15 made of plastic is through which the tube U goes and with this connected by soldering or welding. The washer 15 and the flange 14 'are fastened by bolts 16 to an iron ring 17, which on two crossbars io such rests that the inlet pipe U can pass freely between the crossbars io.

The gas discharge line D consists of a lead pipe 18, dais by means of a Flange sits on the crossbeam S 'and the cantilever beam i9 and with a plastic tube 2o tightly connected by bolts 2.2 with the interposition of a plastic seal 23 is, which in turn is in the Reaction tower leads and with the chamber ceiling 7 is soldered or welded. A is used to reinforce the weld connection Welded profile element 21 made of plastic.

For a better and finer distribution of those passing through the tower Sulfuric acid, the tower z. B. with Raschig rings or perforated plates be made of plastic.

Claims (4)

PATENT CLAIMS: i. Reaction tower for the production of sulfuric acid, characterized in that?) a jacket (i) made of thermoplastic material, the from individual, overlapped, tightly connected to one another by welding There is plastic film inside a tower-like supporting structure (11l) on one upper circumferential frame bar (T) of the same is freely suspended. 2. reaction tower according to claim i, characterized in that the tower jacket (i) extends through the outside non-load-bearing connection bracket (2) made of thermoplastic material welded to it on the supporting frame (i), preferably on a part designed in the manner of a cage. (5) of the scaffolding is held against lateral displacement. 3. reaction tower according to claims i and 2, characterized in that the tower ceiling (7) through Connection bracket (8) made of thermoplastic material welded to it on the outside is freely suspended on a roof structure and tightly connected to the tower jacket (i). 4. Reaction tower according to claims i to 3, with the basin arranged at the bathing of the tower, characterized in that the basin (h) is provided with an outer coating (G) made of thermoplastic material, with which the tower jacket hanging freely into the basin ( i). is tightly connected by a stretchable connecting part (i ') made of thermoplastic plastic. Cited publications: Walter Krannich, Kunststoffe im technical corrosion protection, manual for Vinidur and Oppanol, 1949, pp. 246, 248, 265, 266, 2.82 to 3 0 5.