DE1130831B - Process and device for the production of dust-free granules of uniform grain size from superphosphate or multi-nutrient fertilizers based on superphosphate - Google Patents

Description

Method and device for the production of dust-free granulates Uniform grain size from superphosphate or complex fertilizers based on superphosphate The invention relates to a method and an apparatus for manufacturing of dust-free granules of uniform grain size made from superphosphate or mehmet fertilizers based on superphosphate by adding bentonite.

It is known to granulate powdery or fine-grain fertilizers, in order to achieve that in the field the nutrients for a certain time as Reserve remains in the granulate. Also, when it is being spread, it can hardly be blown by the wind be blown away, as is the case with powdered fertilizers. For this Basically, granulated superphosphate is required to an increased extent.

It is known that fresh superphosphate without the addition of water and that deposited superphosphate can be plasticized and granulated with the addition of water can. However, the granules produced in this way are very sticky, so that they have the property have to adhere to one another immediately and extraordinarily if stored for a long period of time to bake together strongly. They therefore have to be laboriously chopped up again when they are shipped will.

To effectively counter this caking of the superphosphate granules, Attempts have already been made to powder the granules with dusting agents. It could Although little success can be found here, this procedure is in particular due to the necessary subsequent drying uneconomical and expensive. It has also already been found that caking can be reduced, if a slimy or non-crystallized substance is added to the fertilizer which has the property of being around every grain in the form of a fine protective skin to lay. For example, ammonium sulfonitrate was a solution of clay in water added. However, these procedures could not prevail because they represent an additional Require work step and yet only achieve a gradual improvement.

The main difficulty, however, is to ensure uniform granulation of superphosphate and similar fertilizers to be technically mastered. One has tried to plasticize superphosphate according to the known process in order to then to press the fertilizer through sieves, holes or similar openings and to divide the individual strands into the desired lengths. It has turned out to be found that the nozzles were blocked after a very short time, whereby the performance of the granulator decreased very quickly and the device eventually had to be shut down completely to clean the nozzles. Particularly This method proved to be disadvantageous because work stoppages are inevitable was. The fertilizer is so stuck in the nozzles that it no longer comes out of the Nozzles could be squeezed out. Rather, it was necessary to purify the Make nozzles through the bore. This work took several days.

A technically feasible known solution for granulating Superphosphate consists of individual superphosphate particles on rotating elements, such as B. plates or drums, merge and compress. Manufactured in this way However, granules have extremely different grain sizes. But it will in practice it is required that the superphosphate granules have certain uniform grain sizes must own to get the best effect. With the previous granulation processes it is therefore necessary to sieve off the granules produced in order to obtain granules with about to obtain the desired grain sizes. In general, this creates a very considerable production decline because only some of the granulates produced are the desired ones Possesses grain sizes. In addition, the amount of dust caused by undersized grains is the same as in the previous ones Manufacturing process relatively high.

With the invention it has been possible to produce granules made of superphosphate or from superphosphate multi-nutrient to produce chemical fertilizers that do not have the technical difficulties mentioned at the beginning and one of them exceptionally large, uniform grains, the dust content, noteworthy processes consists in adding another montmorillonite-containing clay in amounts of about 0.5 to 2 2% is intimately mixed with the fertilizers and the plasticization and granulating the mixture immediately with the aid without adding moisture a pair of rollers is carried out, which the mixture to e4pem'nd-shaped strand deformed and this strand «p the bores of a hollow cylinder jacket from the inside presses outwards, where the compacts are removed by means of strippers.

The use of sodium bentonite has proven advantageous.

It is known to use fertilizers containing phosphate in certain amounts of bentonite and steam to treat, whereby bentonite is supposed to serve to relieve the tension to increase the interface of the particles to be granulated. The steam should be used Give the desired moisture content and the moisture evenly in the mixture to distribute. Such granules have to be put in a dryer after granulation has taken place be dried in order to remove the excess moisture by drying. The addition of bentonite should be in the order of 1/4 to 1 / Ilo take place.

While in this previously known method, the admixture of bentonite is only up to 0.5 ° / c, according to the invention, an amount of 0.5 is added as an admixture up to 2 0 / o bentonite used. While it was previously necessary to add steam, the addition of moisture is avoided according to the invention.

Finally, the method according to the invention comes without the previously necessary one Drying out.

Another previously known method also involves adding suggested from bentonite to thomas flour. The amount of bentonite added is here, however, between 5 and 10 ovo. In addition, there is no Thomas flour has the same adverse effect as superphosphate fertilizers where granulating extremely difficult because of the caking of the granules is.

The invention has recognized that with a very specific The amount of concrete added a condition is reached that is sufficient for a short time, to carry out favorable granulation without adding water, and so do their granulates later no longer stick together. According to the invention it was recognized that this effect decreases very sharply above an admixture of 2 and below 0.5 ° lo, so that practically no longer ge can be worked in this area. Since the previously known Process the use of bentonite in amounts that are excluded in this Range are, suggest, it is also apparent that the effect of the invention had not previously been able to be achieved.

It is also known that a mixture is already in a plastic state to be introduced into the drum and then pushed through the cylinder wall. However, you wanted to try superphosphate fertilizers this way too granulate, no success would be ascertained without the teaching of the invention.

Mi the invention was recognized that the extraordinarily strong plasticisability of superphosphate was the main reason that the nozzles in the known After a short time, the granulation process will clog and the granulation will be stopped had to. For the purposes of the invention, it was therefore important to ensure the plasticizability of Superphosphate by adding a swellable, but not plasticizable substance to reduce so that the disadvantageous in a sufficiently large period Properties of the superphosphate cannot take effect, so that during this period granulating can be done. The addition of bentonite must according to the invention have the task of partially absorbing the water content of the superphosphate fertilizer, to make him swell. Through this swelling, which, seen as a whole, but does not express itself in a noticeable increase in volume, it is made possible to keep the fertilizer pliable so that it can easily pass through the nozzles. It is essential that during this swelling process, the granules are already the Granulating device leaves. Once the individual granules have been produced a shrinking process begins in the granulate, during which the internal structure of the Granulate changes significantly. While there is an increase in density when swelling shows, the individual superphosphate molecules are preserved during the shrinking process a greater distance from one another, so that the individual granules become porous. These Porosity is aimed for in the context of the invention because it results in an acceleration the slurry of the granules in the bottom liquid is given.

However, the shrinkage effect according to the invention also has a technical effect Granulation process itself has a particular advantage, as this is also the shrinkage The amount of fertilizer that is still in the nozzles of the granulating device during work breaks is subject to lag behind. During the shrinkage, the diameter of the individual decreases Fertilizer strand almost imperceptibly.

The resulting porosity also enhances the surface of the individual strand severely interrupted, so that the individual strand within the nozzle loosens by itself and there is only little friction against the nozzle wall owns. When the granulation work is resumed, the individual therefore needs Nozzle does not need to be cleaned, but it is enough to use the freshly prepared fertilizer through the nozzles, causing the shrunken strands to be pushed outward will.

The addition of bentonite according to the invention thus removes the superphosphate part of the water content. This creates the swelling process in the filler. As soon the swelling process has ended, water is released again, but it evaporates and is not reabsorbed by superphosphate. Through this process, that has granulated fertilizers lost the plasticisability of superphosphate, so that the granules can no longer bake together and therefore no longer need to be dusted with release agents.

Another particularly advantageous feature of the invention manufactured fertilizer granules consists in that the granules in diameter can be produced extremely accurately and uniformly, since the shrinkage process predominantly in expresses a structural change and only one hardly noticeable reduction in the granulate diameter. Due to the structural change a hard and porous granulate is produced, which differs from the previous known super phosphate granules without the addition of bentonite according to the invention characterized by a significantly increased compressive strength. It is for example it has been found that when checking the compressive strength of the same large bodies from the fertilizer granulated according to the invention and the previously known granulated fertilizer resulted in an increase in compressive strength of about 20 to 25 ° / c.

But it has also been shown that the addition of the invention Admixture of bentonite essential chemical advantages can be achieved. So it was found, for example, that by the addition according to the invention of Bentonite and by pressing the fertilizer the proportion of ammonium citrate soluble Phosphoric acid immediately rises by about 1 per cent. Furthermore, it has been shown that by the inventive addition of bentonite the water-soluble phosphoric acid in the fertilizer is not attacked. As already mentioned, the inventive Process a reduction of the water content in the superphosphate by about 2%. Even it has been shown that the content of free acid in the superphosphate after plasticization immediately decreases by about 2%.

In the context of the invention, it was also recognized that to achieve The granules' dissolution times of different lengths and the bentonite content in the fertilizer can be varied within the planar additional amounts, in such a way that at The bentonite content is low with a short dissolution time and with a long dissolution time the salary is high. When using the method according to the invention results So there is a proportionality between the added amount of bentonite on the one hand and the solubility of the granulated fertilizer on the other hand.

It was found, for example, that the solubility of a certain amount of superphosphate granules in a certain amount of water with even shaking, for example 10 g of superphosphate granules with added bentonite in 500 ccm of water, brought the following result in comparison to the previous plate granules made without bentonite: Granulate slurry Diameter time mm minutes Plate granulate. .. 1 to 5 510 Press granules with 12 / o bentonite. . .. 3.3 90 Press granules with 1.52 / o bentonite. .. 3.3 120 Press granules with 20 / o bentonite. . . 3.3 165 The faster solubility is caused by the porosity of the bentonite superphosphate granules.

In the context of the invention, it has finally proven to be advantageous the period between the Bentonite addition and granulation less than 1 hour to measure. If, on the other hand, you choose the period longer, there is a risk that The shrinking process already begins in the fertilizer that has not yet been granulated, so that thereafter the granulation is made much more difficult. It also proves to be advantageous do not increase the admixture significantly above 2 ovo, otherwise the superphosphate too much water is withdrawn, resulting in poor plasticisability of the fertilizer would lead.

As the drawing shows, the fertilizer is added after addition pressed the bentonite with the help of rollers 1, 2 in a band shape 3 and then immediately pressed through nozzle-like bores 4 of a hollow cylinder jacket 5. A further essential subject of the invention is the granulating device which is arranged within a rotating hollow cylinder 5 at least one pair of rollers 1, 2 is, whose one roller 1 touches the inner wall of the hollow cylinder 5. The roller pairs 1, 2 are stored according to the invention so that the fertilizer 6 from an above the storage container 7 located on the rollers 1, 2 passes between the rollers 1, 2, pressed into a belt 3 and conveyed against the cylinder inner wall 5, which the belt 3 takes along in the direction of the individual tangential rollers 1, where the pressed Fertilizer 3 pushed through holes 4 provided in the cylinder jacket 5 to the outside will.

You have it technically in hand, the fertilizer from the outside to press through the cylinder wall. But there is the difficulty to remove the large quantities of granulates from the cylinder. For this Basically, the feeding of the prepared fertilizer mass into the interior of the Cylinder made and in the interior the plasticization and immediately afterwards the granulation is carried out.

There is the possibility of using the individual plasticizing roller pair 1, 2 to be provided in the lower part of the cylinder interior, with the one with the cylinder S. tangential roller 1 is slightly lower than the other roller. The cylinder 5 and the tangential roller 1 have the same direction of rotation, so that the fertilizer belt 3, which is generated and conveyed by the plasticizing rollers 1, 2, from the cylinder inner wall 5 taken along and into the space between the inner wall of the cylinder and the tangent Plasticizing roller is promoted. This tangential plasticizing roller presses then the plasticized fertilizer through the openings 4 in the cylinder jacket 5. Depending on the speed of the cylinder 5 and / or the plasticizing rollers 1, 2, the individual strands 8 of the fertilizer pressed through the nozzles 4 protrude a precisely defined distance beyond the outer wall of the cylinder jacket 5, where they are pressed off by a stripper 9 and taken to stock.

According to one embodiment of the device according to the invention the speed of the cylinder 5 and / or the pair of rollers 1, 2 is primarily infinitely variable regulated. According to a further embodiment, when the machine is switched off in Inside the cylinder 5, a scraper 10 is provided, which is attached to the inner wall of the cylinder 5 strips off applied fertilizers. This inner wiper can 10 can be arranged so that the stripped fertilizer is returned to the plasticizing rollers 1, 2 arrives.

Experience has shown that the dust content in the inventive Procedure is barely noticeable.

It is below 0.25 ovo and only represents the abrasion. Above that In addition, the individual granules are of such a uniform grain size that they do not need more to be screened.

To be able to change the diameter of the granules, Finally, according to the invention, it is recommended that the nozzles in the cylinder have a special shape Canisters, primarily made of fired ceramic materials, to be formed in prepared Bores of the cylinder are pressed in If a nozzle is defective, needs thus not the entire cylinder to be exchanged, but it is sufficient to have one insert a new nozzle.

In addition, these nozzles can be used to convert the hollow cylinder will. This is achieved by the fact that all ceramic nozzles have the same external rotary knife, but have different inner diameters, so that only by replacement of the nozzles with different diameters the conversion to be carried out needs. It is also advisable to equip the individual nozzle with a conical enlargement, especially to be provided with a countersink.

Finally, it should be mentioned in the context of the invention that the chemical Composition of the addition of bentonite according to the invention within wide limits can be varied. The use of montmorillonite has also been found in particular or other montmorillonite clay proven to be beneficial. According to the invention but those admixtures are also suitable, with the help of which it is possible is to reduce the plasticizability of superphosphate and during granulation to bring about a swelling in order to then cause a shrinkage, with whose help it is possible to remove the shrunk fertilizer from the nozzles of the granulating cylinder to push out.

Claims (6)

PATENT CLAIMS: 1 Process for the production of dust-free granulates Uniform grain size from superphosphate or complex fertilizers based on superphosphate by admixing bentonite, characterized in that bentonite or any other Clay containing montmorillonite in amounts of about 0.5 to 20/0 with the fertilizers is intimately mixed and the plasticization and granulation of the mixture without The addition of moisture is carried out immediately afterwards with the aid of a pair of rollers which deforms the mixture into a ribbon-shaped strand and this strand through the bores of a hollow cylinder jacket from the inside to the outside, where the Pressings are removed by means of a stripper. 2. The method according to claim 1, characterized in that as an admixture Sodium bentonite is used. 3. Apparatus for performing the method according to claim 1, characterized characterized in that at least one pair of rollers within a rotating hollow cylinder is arranged, one roller of which touches the inner wall of the hollow cylinder and both Rollers are mounted so that the fertilizer from a located above the rollers Storage container passes between the rollers, pressed into a belt and against the The inner wall of the cylinder is conveyed, which is tangent to the belt in the direction of the individual Roller takes where the plasticized fertilizer through provided in the cylinder jacket Bores is pushed through to the outside. 4. Apparatus according to claim 3, characterized in that the speed of the cylinder or of the individual roller pair is primarily infinitely variable is. 5. Apparatus according to claim 3, characterized by the arrangement a wiper acting on the outer surface of the cylinder to break off the Granules. 6 Device according to claim 3, characterized by the arrangement a wiper acting on the inner surface of the cylinder, with the help of which the stripped fertilizer is fed back to the rollers. Documents considered: German Patent No. 689 602; French Patent Nos. 864 503, 757 814, 743086,734518,730613; french Additional patent specification No. 47 369.