DE205963C - - Google Patents

Description

inacadd bcz

(PlTHMSISe

IMPERIAL

PATENT OFFICE.

The subject of the present invention is a method and. a facility for Achieving relatively large yields of high-grade condensates in the liquefaction of developing a considerable latent heat in it, generally below normal pressure conditions to liquefying gases and vapors, such as hydrochloric acid, Ammonia and similar behaviors

ίο gaseous or vaporous substances. For compression or absorption of substances of this type has hitherto generally been carried out in such a way that the hot, optionally with more or less water vapor mixed gas through very wide and long air cooling pipes, through troughs, bombonnes o. The like. Let pass the gas or steam initially to cool, whereby the air cooling lines had to be quite long in order to resulting from the compression of the parts that liquefy during air cooling latent heat, which prevented further condensation, from being removed, whereupon that now precooled gas or steam treated in this way into one or more significant Large towers sprinkled with water or weak condensate let enter, in which the production of the actual condensate took place. It was there but not possible to achieve high-grade condensates, and this was not achieved by that instead of the towers a number of juxtaposed, with fillers equipped turills and then the condensate obtained in the individual turills united. Here too, the very long and costly one, the condensation apparatus Upstream air cooling was not avoided, and one was forced to irrigate the Condensers use a relatively large amount of liquid, so that the condensate in its severity was limited so as not to use too small quantities from absorption liquid too high warming, which easily causes the vessels to crack to bring about the vessels. In addition, it had to be in order to achieve sufficient perfect condensation of the vapors or gases in question to reach the amount of absorption liquid increased, reducing the thickness of the condensate. About these abuses and the frequent breakage of the To avoid Turill's resulting loss, one has that for the condensation effect as special previously used advantageously large towers with contact bodies exposed to this By increasing the surface area, the compaction and to increase absorption effect. As a result, however, the contact effect inside the tower became so extraordinary Increase in temperature as a result of the increased development of compression or Absorption heat free that one part Jump on the outside exposed to the cold air temperature and through the unequal temperature rise to unequal tension conditions brought walls of the Tower was inevitable and on the other hand also the yield of material through the as a result of the Increase in temperature occurring evaporation

suffered significantly. It was therefore necessary to add several post towers to the large condensation towers to follow without achieving significantly better results, or you led an intensive cooling of the condensation tower partly through heavy external sprinkling, partly by laying cooling tubes in the towers. Due to the strong external irrigation but became the tendency to burst

to and jumping enlarged, while when inserting cooling tubes it was impossible that Towers at the entry points of the tubes as well as these themselves at their junctures to keep. The cooling elements were inside because of the significant temperature differences of the towers exposed to frequent breakage, with the cooling liquid then entering the interior of the Towers leaked and mixed with the condensate, rendering it unusable and on the other hand, due to the sudden cooling, also a destruction of the to suspend the Towers used contact bodies.

To avoid these difficulties,

is in the present invention, the cooling and absorption in successive and alternating cooling and compression vessels made so that to a certain extent the cooling and compression combined with the previously common towers or absorption effect is separated from each other. This bypasses the need of the long and wide pre-cooling "pipes" and the use of the excessively high towers and is able to use the added Water vapors from the more easily condensable, by mixing water bubbles to separate the mists created by the gas or steam to be compressed or, as it were, to filter off gas or steam mist to be compressed from the excess of water vapor. By the smaller one Dimensioning of the individual parts of the device will also prevent the gases or Vapors, as was the case with the earlier devices, with extraordinarily large amounts Mix quantities of indifferent gas residues, which has made the compression effect extraordinary difficult.

To illustrate the invention, the following schematic drawing is intended to be an example Embodiment of a system carried out according to the present invention, which z. B. for the production of high-grade hydrochloric acid Can find use, serve.

The invention consists essentially in that one. the sprinkling fluids that only need to pass a very short air cooling beforehand with the one to be compressed Gas or steam cools and can enter a small tower, which on the one hand through this condensate, on the other hand through the likewise previously cooled product of a following compaction element is sprinkled.

The gas or steam that has not yet been compressed is first passed through a cooling device passed, with, as mentioned, approximately compressed parts as sprinkling liquid to the previous tower and then to another small tower or a similar compression or absorption element that also with previously cooled product of a subsequent element or with the compressed Proportions of the preceding or following cooling elements is sprinkled. In this way Both the steam to be compressed or the gas as well as the sprinkling liquid arrive always in the cooled state in the compression element, where the far lighter than Water vapor itself compressible or absorbable "mist of the gas or vapor easily absorbed by the sprinkling liquid or on the approximately applied Contact bodies is precipitated, while the far more difficult to liquefy excess Water vapor with only relatively small proportions of the gas or steam into the next cooling element and then continues to enter the next compression element. You can of course also use the 'condensates pull them separately from the cooling elements or individual ones. So it will be with the present Invention the principle of the common compression of the vapor or gas mist on the one hand and the excess water vapor on the other hand avoided and the fog largely, without the not yet condensed Water vapor having to be liquefied, condensed, while the compression of the im not condensed Water vapor still contained mist a following pair of cooling and compression elements falls. A very strong product is therefore obtained even in the first small tower. One is further away from this institution able to arrange the individual towers on top of each other and in this way the space better than before. One also avoids the harmful, the regularity of the Operation disruptive tensile effects, which so far resulted from the extraordinary amount of so to speak as chimneys resulted in towers, so that one is also able to mutual contact of gas and liquid or the gas velocity better than so far to regulate.

If you in this way the compression or liquefaction by a plurality of each other alternating small cooling and compression elements causes, in which the latter the gases, vapors and liquids are already in When the cooled state occurs, one is also able to repeat the gases

and subjected to the compression or absorption process under various conditions be able to obtain a plurality of condensates of different strengths for themselves, 5 without thereby generating the very strongest condensate or building and operating the To affect plant somehow.

In the exemplary embodiment shown schematically in the following drawing, in which the path of the acid is dotted and the path of the gas or vapor is shown by solid lines, the gas from the generators, for example furnaces or muffles, first enters the short pre-cooling line d, from which, in the production of hydrochloric acid, the impure acid containing sulfuric acid, or rather the entrained sulfuric acid containing only a little hydrochloric acid, can be removed in a known manner. The gas with roughly condensed hydrochloric acid then flows through a water cooling system h and from there into the first small tower s, from which, as explained above, very strong product of about 24 ° can be withdrawn at r. The non-liquefied portions and almost the total amount of water vapor, which was separated from the gas mist in the first tower, flow through the pipe c into a water cooling system w and from there through the line e into a second small tower f, from which that in the same compacted product

. flows back through the same line and through the same cooling element as a sprinkling liquid through the line q into the first tower. The tower f is expediently placed higher than the first tower S. The tower /, if a larger number of pairs of elements is used, is made from the product of the following element after it has passed through a cooling device and from that from which it passes the condensate leaving the cooling device is sprinkled. In the present Ausfühfungsform, where only two pairs of elements are used, for irrigation of the tower f except the condensate of by the cooling device g preceding escaping gas, uses the k in a Nachturm small amount produced very weak acid, which here by a Montejus 0 and is conveyed through the lines υ and m, if necessary after switching on a cooling element, to the tower f. A fan i provides for the gas movement and for the regulation of the gas passage. Line I leads from the night tower k into the open air or into the chimney. The post tower is sprinkled either with water or very thin acid through the line η .

The height of the small towers s, f etc. is dimensioned such that the gas or steam mist can be separated from the water vapor in them, so that the water vapor essentially escapes, while in the large towers used up to now both water vapor and the Mist were condensed and liquefied and together came to the base of the tower as a diluted product. Towers with a height of about 2 m have proven to be useful, while towers with a height of 15 and a considerable cross-section have so far been used in the production of hydrochloric acid.

In the case of about 4000 kg of salt-processing hydrochloric acid production, for example, according to the present invention, for shell- and muffle side two such small towers, about 2 m high, and two 24 a content of about 45 to 50 1 having cooling elements, which between the towers can be arranged as well as a post tower of about 5 to 6 m height, while with the earlier one For this production, a good 80 turills of 300 1 content and one each are set up Tower for muffle and shell side of 900 mm diameter and 15 m height was required.

Of course, if you wish, you can also 'contact bodies' in the cooling elements themselves attach so that the effect of sharing the functions of compression and absorption towers is still significantly increased by both the highest degree of cooling effect and the highest degree of compression or surface condensation and absorption can be achieved in this way, while in the previous methods, even in the most favorable case, the contact effect only could be achieved at the expense of the cooling effect or vice versa.

Of course, you can also have a plurality of similar elements in the individual Use stages of the procedure. You can, for example, a plurality of with fillers or contact bodies filled condensation or absorption devices side by side and the cooled gases or 105 'vapors pass therethrough at the same time permit. One can also use gas or vapor and the liquid instead of them as in the present case Embodiment through the cooling elements by means of one and the same pipeline to pass through, also pass through separate pipes.

Only a small one is required to sprinkle the small towers used here Amount of absorption liquid without loss of the substance to be liquefied can be very heavy while using the tall towers had to hold back all the substance to be compressed and no loss of absorption to suffer, which in turn diminished the strength of the condensate.

Claims (2)

Patent Claims:
ι. Process for the absorption and cooling of gases and vapors, in particular hydrochloric acid and similarly behaving gaseous and vaporous products, characterized in that the gases or vapors are passed through any number of alternating, separate, independent cooling and absorption devices that Both the gases or vapors and the liquid used for compression or absorption are subjected to special cooling before entering each individual absorption element, and both the absorption liquid and the condensate generated by cooling are used for sprinkling. 2. device 'for performing the method according to claim i, characterized in that that the advantageously tower-like condensation devices separated from one another by cooling elements have such small dimensions that in them a separation of the largest amount the gas or steam mist from the excess water vapor with liquefaction of the former take place and harmful pulling effects resulting from the height of the towers can be avoided. For this purpose ι sheet of drawings,