DE1051817B - Reactor or heat exchanger with parallel pipes of hexagonal cross-section - Google Patents

Description

GERMAN / 0S * iffi \ PATENTAMT

kl. 12 g 1/01

INTERNAT. KL. B Ol j

EDITORIAL 1 03l817

U 3608 IVa / 12 g

REGISTRATION DATE: NOVEMBER 18, 1955

NOTICE
THE REGISTRATION
AND ISSUE OF THE
EDITORIAL: MARCH 5, 1959

The invention relates to a reactor or heat exchanger or contact furnace with parallel running Pipes with a hexagonal cross-section, the spaces between which are used to hold a coolant.

In the known reactors of this type, the hexagonal tubes were placed directly on top of one another, or intermediate pieces were inserted between the hexagonal tubes. If the reactor tubes are placed directly on top of one another, there is not enough space between their walls for a coolant. On the other hand, the pipes inserted spacers difficult to distribute and to be arranged between ^{the first} Also is ^; Your expansion capacity, which is generally different from that of the pipes, must be taken into account. Furthermore, in order to obtain a sufficient seal at the ends of the combined tubes, the intermediate pieces would have to be welded onto the tubes. For this purpose, each intermediate piece would then have to be welded to two pipe ends, which is cumbersome and difficult and impairs the security of such a seal.

If you also want to save on coolants, z. B. mercury, the distance between the pipes very little, e.g. B. hold in the size of about 1 mm, so can such thin spacers with significantly greater thickness of the pipe wall, the z. B. can be several mm, at all not weld exactly. For the reasons mentioned, this type of reactor is not to be used come of practical importance.

According to the invention it is proposed that the ends of the tubes designed with a hexagonal cross-section expand and lay the pipes tightly on top of each other with these ends as well as on their outer edge complete a weld. By designing the reactor in this way, the above-mentioned Fixed disadvantages.

The expansion of the pipes at their ends can be done depending on the calculated and required amount of cooling liquid take place so that when the flared ends are placed on top of each other, between the Pipes results in the space required to accommodate the relevant amount of cooling liquid.

As a cooling liquid, in a known manner, for. B. mercury or a saline solution can be used. In order not to use too large amounts of this cooling liquid z. B. having to spend mercury, continued up to now, filling rods have been inserted between the tubes of a reactor, also known as "displacement rods".

Such an arrangement, however, has the disadvantage that the displacement rods transfer the heat very poorly and that it is difficult to set the temperature accurately.

Reactor or heat exchanger

with parallel pipes

hexagonal cross-section

Applicant:

Union-Chemie Ernst Paul Jäger

Import - export of chemical plants

and raw materials, Düsseldorf

Ernst Jäger, Düsseldorf-Reisholz,
has been named as the inventor

In the arrangement according to the invention, it is necessary, as the space between the pipe surfaces can adjust precisely, such displacement

rods between the Rohrwäniden not to be arranged.

The hexagonal tubes are inside the contact furnace only with their ends on top of each other, with their whole Length between the ends but not wall to wall, but their wall surfaces run with

ring gap, e.g. B. with a few millimeters, z. B. 1 to 3 mm, distance.

The widening of the ends of the hexagonal tubes also has the advantage that it closes the joints Weld required between the pipes only

receives small width, so that the weld seams can be carried out exactly with the simplest possible design.

On the basis of the flanging or widening, one can also see the amount of water absorbed by the reactor Coolant, e.g. B. saline solutions, high-temperature

temperature-resistant, synthetic oils, mineral oils, or other coolants, e.g. B. cooling gases, molten metal and the like., Calculate exactly. One of those Reactor or contact furnace can be used for all previously common purposes by being with gases or

Gas mixtures is charged, e.g. B. with gases for the production of acids, with influenceable by catalysis gaseous substances, etc. The reactor designed according to the invention can in particular advantageous for carrying out such exothermic

Use reactions that use a relatively expensive coolant such as mercury will.

Compared to the use of round tubes, it is possible with the aid of the arrangement according to the invention, the

809 7687497

Reduce the amount of coolant by at least 30 to 60%. So z. B. 4000 1 mercury required in a reactor with cylindrical tubes despite the use of filler rods, with the help of the new design of a reactor only requires about 25001 cooling liquid, which is economical Operation of the reactor can be critical.

In the drawing, a device according to the invention is shown for example.

1 shows a reactor designed according to the invention in vertical section;

FIG. 2 shows part of the tubes of the reactor also in a longitudinal section on an enlarged _{scale (} ßstab; FIG. 3 is a section along line CD in FIG. 2.

In detail, the reference numeral 1 denotes the outer wall 'of the reactor, the z. B. in the form of a Cylinder jacket can be formed with a supply line with the z. B. funnel-shaped Hood 2 and the also funnel-shaped bottom 3. The introduction of the to be treated Gases are discharged from above through a line 4, their discharge through a line 5.

The supply of coolants such. B. of mercury, takes place through lines 6 and 7, their discharge through one connected to the lower part of the reactor Line 8.

The space of the contact furnace enclosed by the jacket 1 is also included in the exemplary embodiment vertical pipes 9 equipped. According to the invention, these tubes have a hexagonal cross section and are widened at their ends 10, 11 according to (Fig. 2) such that when they are placed with the ends on top of one another are, remain between the tubes gaps 12, the size of the Correspond to the amount of coolants to be absorbed.

The tubes are attached to each other Ends connected to one another by weld seams 13.

The whole tube bundle can be used in a known manner, z. B. by means of an upper ring 14 and by means of a lower ring 15, with the wall 1 of the furnace shell be welded.

The larger space 16 that results between the jacket 1 and the outermost row of tubes, can optionally be filled with cooling rods 17 indicated by dotted lines in the drawing.

Claims (3)

Claims 1.Reactor or heat exchanger with parallel pipes of hexagonal cross-section, the spaces between which serve to receive a coolant, characterized in that the Ends of the tubes (9) widened and the tubes with these ends (10, 11) placed tightly on top of one another as well as are closed at their outer edge by a weld seam. 2. Apparatus according to claim 1, characterized in that the between the jacket (1) of the furnace and the outer row of tubes remaining space filled by displacement rods (17) is. 3. Device according to claims 1 and 2, characterized in that the entire tube bundle by means of an upper ring (14) and by means of a lower ring (15) with the wall (1) of the Oven jacket is welded. Considered publications:
Austrian patent specification No. 116 364. Legacy Patents Considered:
German Patent No. 948 781. 1 sheet of drawings © 809 768/497 2.