DE2919773A1 - METHOD FOR THE PRODUCTION OF NON-DUSTING ABRASION-RESISTANT CALIDUCER AGENTS - Google Patents

Description

Title of the invention

Process for the production of non-dusting, abrasion-resistant potash fertilizer granules

Field of application of the invention

The invention relates to a method for improving the physical quality of mineral fertilizers, in particular potash fertilizers, which are in granulated form and, in particular, are transported and stored in bulk _{or the like}

Characteristics of the known technical solutions

In the potash industry, some of the fine-grain potash fertilizers produced are separated by dry press granulation also by agglomeration of moist goods in granulating drums, processed into coarse goods. Products are made with a grain range, which is preferably between about 1.0 and 4.0 mm. The granules produced consist of angular grains, which are characterized by partially satisfactory mechanical strength and density.

The disadvantage is that abrasion occurs during transport and handling of the granules, which leads to an inadmissible increase in the fines content leads. This inadequate abrasion resistance of the granules leads to inadmissible dust development and salt losses and thus to a work-physiological burden on the employees as well as a considerable environmental burden. These negative properties are caused by various factors, such as low and non-uniform strength of

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Granules single grains, the shape of the granules as existing Edges, points, the adhesion of the dust particles adhering to the granulate, as well as the transport and cargo handling processes.

It is known to use undersized grains (fine grains) Separate sieving process. However, the forces acting during the sieve classification are not sufficient, the finest adhesive dusts to be removed from the surface of the granules, so that the fan grain fraction can be up to 0.4% after sieving. A product treated in this way is still dusty.

It is known that by adding polymerizable organic substances the dust particles can be bound relatively firmly on the surface of the granules. A disadvantage It is important to note that relatively large amounts of these substances are applied to the granules in order to achieve the dust-binding effect have to. On the other hand, other utility properties of the granules are adversely affected.

It is also known through the generation of artificial abrasion, the mechanical wear that takes place later during transport and handling Stressing the granulate particles to be carried out at the manufacturer and the resulting IP single grain fraction by control sieving to separate. In practice, however, it has been shown that the following transport and transshipment conditions, dust is generated again through abrasion.

Object of the invention

The aim of the invention is to overcome the disadvantages, such as the high level of dust generation of the granules in handling and transport processes, caused by the inadequate abrasion resistance of the granules, to attach and to achieve an improvement in the utility value in terms of abrasion and dust behavior.

Explain the essence of the invention

The invention is based on the object of preventing abrasion

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to improve the granules so that the fines during transport and throughput is not increased significantly and thus they do not become dusty.

It has been found that non-dusting and abrasion-resistant potash fertilizers can be produced if the potash fertilizers are subjected to a stream treatment after the granulation process. The combined application of the process partial steps dedusting of the granulate, followed by treatment of the granular surface with water or aqueous additives, drying by utilizing the heat capacity of the manufacturing process with 40 - 80 ⁰ C internal temperature resulting granules and subsequent cooling surprisingly leads to such a non-dusting and non-abrasive Kalidüngemittelgranulaten as have not yet been achieved by any known method. The application of only one of these partial steps alone or their incomplete application does not bring about a satisfactory improvement in the abrasion and dust behavior of the granules. An essential feature of the invention is therefore the specified application of several process sub-steps

According to the invention, the first partial process step consists in removing the dust particles adhering to the potash fertilizer granules by means of strong air currents in the fluidized bed. Subsequently, in the second step of the process, the granules that have been dedusted in the fluidized bed are wetted with water or aqueous additives in order to remove the unstable tips and edges that are still present, which would lead to abrasion again. Due to the dedusting carried out in the fluidized bed beforehand, the additional amounts are 0.5 - 2 % water. In the third process step, using the heat capacity of the granulate or using preheated air currents, the evaporation of most of the adhesive liquors in the granulate is achieved, and the surface of the granulate is solidified by recrystallization processes.

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The granulate is then cooled to approximately ambient temperature. The process is controlled in such a way that residual water of preferably 0.1-0.2 % still remains on the surface of the granulate; This residual moisture binds the fine fractions that are still produced by the end user through the transport and handling processes.

By adding organic substances, preferably of mineral oil, evaporation of the residual water can be delayed and additional dust binding in the event of secondary dust accumulation later guaranteed.

The invention is explained in more detail in the following exemplary embodiment explained.

Embodiment

The potash fertilizer granulate is dedusted by strong air currents in the fluidized bed prior to loading Dust-free bubbles in the granulate depend on the amount of dust adhering, the amount of air that is present with the grain size of the potash fertilizer lgranulate is preferably 2-3 m / s and the Throughput and are in the seconds range s ^ 5 see.

This is followed by wetting with 0.5-2.0%, preferably 1%, of water in a mixing section and its even distribution over the entire granulate otre rf area. The granulate treated in this way is then dried with strong air currents, preheated if necessary, and then cooled with air, with both drying and cooling in the fluidized bed taking place in such a way that the undersized particles are separated and discharged according to the desired cut. This process must be set so that residual moisture of preferably 0.1-0.2 % still remains on the granulate.

With the addition of organic substances, preferably mineral oils in quantities of 0.2-1.0 g / iig, which is obtained by spraying in the outlet part the fluidized bed can take place, the conditioning of the granulate is completed.

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The following quality improvement was achieved through the described post-treatment of the granules:

Dust value ^J Abrasion test ^J : in g / kg in %

Granulate untreated accordingly

Fine grain fraction 1.1 - 3.5 18

Granules in the fluidized bed,

dedusted 0.5 18

Granules treated with 0.5% water

and dried 0.4 12

Granules treated with 1.0% water

and dried 0.2 9

Granulate samples after the fluidized bed dedusting with water treated and still contained residual moisture after drying, showed in the abrasion treatment in a roller drum after 10 minutes of drum running time, the following amounts of newly formed by the way

Amount of abrasion dust value in % in g / kg

Granulate untreated, dedusted

Granules treated with 1 % water, residual moisture 0.1%

Granules treated with 1% water, residual moisture 0.2%

0 , 38 1, 8th 0 , 2 0, 8th 0 , 12 0, 3

Dust value determined according to TGL 29

Abrasion test according to the factory standard draft of the YEB Kombinat Kali Sondershausen from Nov. 72

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Claims (4)

Invention claims 1 · Process for the production of non-dusting, abrasion-resistant potash fertilizer granules, characterized in that the potash fertilizer granules after the actual
Granulation process several combined with each other
Process steps are subjected to the fact that the potash fertilizer granulate is first dedusted in the fluidized bed, then wetted with water and then the granulate surface is solidified by recrystallization processes using the heat capacity of the granulate. 2. The method according to item 1, characterized in that the
The granulate is dedusted at air speeds of preferably 1-4 m / s in the fluidized bed. 3. Process according to point 1, characterized in that after the dedusting in the fluidized bed, water is added to the granulate in quantities of 0.5-2 % - preferably 1 %
will. 4. The method according to item 1, characterized in that after the dedusting in the fluidized bed and the water treatment carried out, the granules are dried and cooled to approximately ambient temperature in the fluidized bed
until residual moisture in the granulate of QI - 0.2% is reached. 5. The method according to item 1, characterized in that after or parallel to the water treatment, conditioning with organic substances - preferably
Mineral oil - is made. 909884/0586