PL185838B1 - Method of obtaining a sulphuric fertiliser - Google Patents

Abstract

The method of obtaining granulated sulfur fertilizer containing bentonite, characterized in that the liquid sulfur is flowing through the sprinkler openings of the granulation column forms droplets that collide with crushed bentonite or crushed bentonite with the addition of ground sulfur, introduced into a countercurrent pump cooling atmospheric air

Description

The subject of the invention is a method of obtaining granulated sulfur fertilizer, containing bentonite, used for soil fertilization with sulfur necessary for plant growth.

The need to fertilize soils with sulfur is now noticed and appreciated by specialists in the field of plant cultivation. This is due to the fact that due to the widespread desulphurization of flue gas and the reduction in the use of sulfur-containing fertilizers in favor of concentrated and multi-component fertilizers, there was a significant sulfur deficiency in the soil. In order to prevent the negative effects of its absence in the soil, the production and application of sulfur fertilizers was started.

It should be noted that the available form of sulfur is the sulfate ion. However, due to the concentration of the fertilizer component, the most convenient to use is elemental sulfur, which as a result of oxidation processes taking place in the soil under the influence of sulfur bacteria and other microorganisms, is converted into the sulphate form useful for crops. Moreover, fertilization of the soil with elemental sulfur allows for a better use of this element, as the slow oxidation of elemental sulfur, which cannot be washed off by precipitation, reduces losses. Among the sulfur fertilizers, one of the most important is the sulfur-bentonite composition with the following components: about 90% and about 10%, respectively. The hemispherical shape of the pellets of this fertilizer indicates that it is obtained by spraying it on a cool surface.

The aim of the invention is a method of obtaining sulfur fertilizer containing bentonite in the form of granules, very convenient for agriculture, with a heterogeneous composition.

There are methods of tower granulation of pure sulfur, e.g. from Polish patents 48 911 and 117 977. According to the description PL 48 911, before commencing the granulation, an aerosol is produced in the granulation tower from finely dispersed sulfur dust and air, and then liquid sulfur is fed to the sprinkler, which, after flowing out of its holes, breaks into droplets which solidify as they fall to form homogeneous spherical granules, with the sulfur dust acting as crystallization spores. According to PL 117 977, streams of liquid sulfur are introduced countercurrently into a vertical air stream, and as the solidified granules rub against each other, sulfur particles are formed, which are lifted with the air up the granulation tower, in contact with the falling drops of molten sulfur. These particles are the spores of crystallization.

The method according to the invention is characterized in that liquid sulfur flowing through the sprinkler holes of the granulation column forms droplets which collide with the comminuted bentonite or with comminuted bentonite with the addition of ground sulfur. Bentonite is introduced into countercurrently pumped atmospheric air that acts as a cooling agent.

Finely ground bentonite or a mixture of bentonite with ground sulfur, blown into the granulation column with air, "sticks" into solidified sulfur droplets, accelerating its solidification, i.e. the formation of granules.

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The fertilizer produced by the method according to the invention is characterized by a favorable, from the agricultural point of view, heterogeneity of the granule composition. At the outer surface, the granules contain an increased concentration of bentonite. This is a favorable phenomenon as it facilitates the initiation of scattering of the outer layers due to the swelling of the bentonite in the soil and the resulting fertilization effect. Inside the crumbling granules, there is a greater content of sulfur, which is retained for later periods of plant vegetation, which extends the period of effective effect of sulfur fertilizer. As a result, the application of the solution according to the invention accelerates and at the same time prolongs the fertilizing effect of sulfur-bentonite compositions.

Example I

13500 kg / h of liquid sulfur at a temperature of 140 ° C were introduced into the sprinkler of the granulation column (diameter 5.0 m and height 40.0 m). Sulfur flowed down through the 1.5 mm diameter holes in the sprinkler, forming droplets about 3 mm in diameter. At the same time the lower part of the column through the perforated bottom of holes having a diameter of 5.0 mm was pressed 60000 m ³ / h of atmospheric air, which by means of a worm feeder added 1750 kg / h "air-dry" bentonite with a content of 14.3% moisture, shredded less than 0.15 mm. This process produces granules in the amount of about 15,000 kg / h, containing an average of 90% elemental sulfur and about 10% dry bentonite, suitable for use as a sulfur fertilizer.

Example II

As in Example 1, 12,000 kg / h of liquid sulfur at 140 ° C were introduced into the column sprinkler. To the bottom of the column is compressed 50000 m ³ / h of air, into which the 3250 kg / h 1750 kg of the homogenized mixture "air-dry" bentonite moisture content of 14.3%, a particulate of less than 0.15 mm, with 1500 kg ground sulfur, shredded less than 0.1 mm. The process carried out in this way also produced about 15,000 kg / h of granules, containing on average 90% elemental sulfur and 10% dry bentonite, intended for use as a sulfur fertilizer.

185 838

Publishing Department of the UP RP. Circulation of 50 copies

Price PLN 2.00.

Claims (1)

Patent claim The method of obtaining granulated sulfur fertilizer containing bentonite, characterized in that liquid sulfur, flowing through the sprinkler holes of the granulation column, forms droplets which collide with comminuted bentonite or comminuted bentonite with the addition of ground sulfur, introduced into counter-current forced cooling atmospheric air.