PL234284B1 - Method for producing granular lime organic fertilizer - Google Patents

Abstract

Method of producing granulated organic-lime fertilizer from bulk material in the form of post-saturation mud and fine-grained chalk flour, by granulating them, using an aqueous solution of molasses to moisten them during granulation, consisting in using post-saturation mud with humidity up to 0.5 and grain size up to 2.5 mm as bulk material, and fine-grained chalk flour with humidity up to 0.05 and grain size up to 0.5 mm, wherein granulation is carried out in a granulator plate (1) rotating at a speed of 8-25 rpm, to which post-saturation mud is continuously fed with constant efficiency, while simultaneously moistening the post-saturation mud bed using a set of nozzles with a 10-70% aqueous solution of molasses at a temperature of 15-55°C, fed in the form of drops with a diameter of up to 6 mm mm or in the form of a stream, under a pressure of 10 - 30 kPa, in such an amount that the flow rate of the moistening liquid is 0.125 - 0.3 of the capacity of the supplied mud, then the produced granules are poured by gravity, in a continuous manner, through the inclined side of the granulator plate (1) to the granulator plate (2) rotating at a speed of 6 - 20 revolutions per minute, where the powdering process is carried out, during which fine-grained chalk flour is continuously applied onto the flowing moist and granulated bed with an efficiency of 0.15 - 0.55 of the amount of bed supplied to the granulator plate (2) from the granulator plate (1), then the surface-dry, non-sticky granules obtained during the powdering are poured continuously from the granulator plate (2) through the inclined side, whereby continuous operation plate granulators inclined to level at an angle of 41 - 49°, wherein the volume of the granulator plate (2) is 1.5 - 2 times greater than the volume of the granulator plate (1).

Description

Description of the invention

The subject of the invention is a process for the production of granular calcium-organic fertilizer.

There are known methods of producing granulated calcium mineral fertilizers from dolomite, limestone, chalk, gypsum and mixtures of the aforementioned components by granulating these components in disk and drum granulators, using water or aqueous molasses solutions to moisten granulated powdery components.

Post-saturation mud, otherwise known as defecosaturation mud, saturation mud, saturation sludge, defecation sludge, saturation sludge, is a waste product from sugar factories, produced in the amount of 8-12% of the processed beet mass. It contains 50% of dry matter, of which 63-77.4% is CaCOs, 7.4% MgCOs, 11.7% organic substances, 0.3-0.4% nitrogen and up to 0.5% P2O5. So far, the post-saturation mud has been deposited on piles.

The Polish application of the invention P.417846 discloses a method for the production of lime mineral fertilizer from post-saturation mud and fine-grained chalk flour in a disc granulator with periodic operation. However, this method is associated with low production efficiency due to the periodic filling and emptying of the granulators. The big disadvantage of this technology is the inability to fully automate the production process and the inability to smoothly control the technological parameters. An additional problem is the necessity to provide numerous servicing of technological lines, which is exposed to the influence of dust during the loading of dusty materials.

The aim of the invention is to develop a method for the production of granulated organic-lime fertilizers from post-natural mud and fine-grained chalk flour, ensuring greater process efficiency, the possibility of process control, the possibility of smooth linking it with subsequent technological processes such as drying, classification, cooling and packaging, and allowing for the production of fertilizer by favorable properties of all granules with significantly fewer people operating the technological line and lower influence of dust on the operation of the installation.

The method of producing granulated organic-lime fertilizer from loose material in the form of post-saturation mud and fine-grained chalk flour, by granulating them, using an aqueous solution of molasses to moisturize them during granulation, according to the invention, is based on the use of post-saturation mud as the loose material with moisture up to 0.5 and graining up to 2.5 mm and fine-grained chalk flour with moisture up to 0.05 and graining up to 0.5 mm, while granulation is carried out in the granulator plate rotating at a speed of 8-25 rpm, into which the post-saturation mud is continuously introduced, with a constant efficiency, with the simultaneous moistening of the post-saturation mud bed with a set of nozzles with a 10-70% aqueous solution of molasses at a temperature of 15-55 ° C, introduced in the form of droplets with a diameter of up to 6 mm or in in the form of a stream, at a pressure of 10-30 kPa, in an amount such that the flow efficiency of the moisturizing liquid is 0.125-0.3 of the delivered mud efficiency, then The poured granules are poured by gravity, continuously, through the inclined side of the granulator plate, in which granulation is carried out, to the granulator plate rotating at a speed of 6-20 revolutions per minute, in which the powdering process is carried out, where moist and granulated the bed is applied continuously, fine-grained chalk flour with a yield of 0.15-0.55 of the amount of the bed supplied to the granulator plate in which the granulating process is carried out, from the granulator plate in which the granulation takes place; The dry surface, non-sticky granules obtained during powdering are poured continuously from the granulator plate over the inclined side, using continuous disc granulators inclined to the horizontal at an angle of 41-49 °, and the granulator plate in which the powdering is carried out has a volume of 1.5-2 times the volume of the granulator disc in which the granulation takes place.

Preferably, the moistening process begins when the volume of the bed of raw material in the granulator plate is 0.15-0.3 of its volume. On the other hand, it is worth starting the powdering after the bed is filled by gravity fed from the granulator plate, in which the granulation process is carried out of 0.10-0.25 volumes of the second granulator plate.

The bed granulated in the granulator plate is preferably moistened with an efficiency of 0.15-0.25 of the yield of the supplied post-saturation mud, which ensures obtaining appropriate strength properties of the granules, while ensuring rapid release of calcium components into the soil. It also allows to reduce the purchase costs of molasses and the costs of drying the obtained fertilizer.

PL 234 284 B1

The fine-grained chalk flour is preferably supplied to the granulator plate, in which the powdering process takes place, with an efficiency of 0.2-0.4 of the capacity of the granulate delivered from the plate, this ensures optimal adhesion of the powdery material to the wet surfaces of the previously formed granules, which allows minimizing the duration of the powdering process while maintaining the required properties of the manufactured product. It is delivered via a plate, screw or belt conveyor.

Preferably, the ratio of the volume of the granulator plate in which the powdering process takes place to the volume of the granulator plate in which the granulation process takes place is 1.7-1.8, which allows to minimize the purchase costs of the production equipment.

Preferably, the angle of inclination of the granulator disc in which the powdering process takes place is 2-3 degrees smaller than that of the granulator disc in which granulation takes place, which ensures smooth circulation of the powdered material and reduces the time needed for dry powder grains to adhere to the wet surface of the granules before the product will lower the plate over its sloped side.

The method according to the invention allows the process to be carried out in a continuous manner, with greater efficiency compared to the batch method of granulating post-saturation mud in disc machines. It also allows you to control the efficiency of the supplied raw materials, and thus allows you to automate the process of producing granules and reduce the number of people operating the installation. The continuous supply of dusty components to the granulator disc also significantly reduces the adverse health effects of dusts on the health of people working with the granulator. Virtually even supply of powdery materials and the moisturizing liquid by means of a set of nozzles located directly above the surface of the plate also reduces the exposure of dusts, as they are immediately bound by the supplied liquid inside the granulator. Moreover, the production of fertilizers according to the invention allows for a smooth and continuous linking of this process with other necessary technological operations such as drying, screening, cooling and packaging of the product.

The method according to the invention makes it possible to use a waste product - saturation mud previously stored on piles. The method according to the invention produces a mineral-organic fertilizer containing calcium compounds of good quality and composition, also containing various minerals. The introduction of fine-grained chalk of chalk into the granulator plate, in which the powdering process is carried out, causes the fine-grained material to cover the damp surfaces of previously formed agglomerates, which ensures obtaining granules forming a non-caking bed with a flowability allowing for free transport of granules for subsequent technological operations. Moistening with an aqueous solution of molasses improves the strength of the granules and enriches the fertilizer with organic ingredients. The organic-calcium fertilizer obtained by the method according to the invention can be successfully used instead of the previously used calcium fertilizers, in particular for soil deacidification.

The process according to the invention is illustrated by the following examples and the drawing in which Fig. 1 shows a schematic arrangement of the continuously operated disc granulators used.

P r z k ł a d 1

The granulator plate 1, inclined at an angle of 45 °, with a diameter of 500 mm and a side height of 130 mm, was set into rotation at a speed of 14 rpm, after which it was supplied, with a constant capacity of 60 kg / h, screened on a sieve with a mesh diameter 2.5 mm of post-natural mud with a moisture content of 0.38. As a result of rotating the granulator disc 1, the bed began to circulate due to the inclination of the disc and its rotational movement. When it was determined that the material of the raw material fills about 0.2 of the volume of the plate, we began to continuously moisten it with a set of nozzles placed directly above the plate with a 12% aqueous solution of molasses at a temperature of 15 ° C, introduced with drops with a diameter of approx. 4.5 mm, through a set of nozzles, at a pressure of 15 kPa, with a capacity of 12.0 kg / h. The exit diameter of the nozzles was 1.2 mm. As a result of the continuous supply of the raw material and the moisturizing liquid, their mixing and the circulation movement, the granulation of the post-saturation mud contained in the granulator and the plate took place. Then the volume of the granulated bed in the granulator plate 1 increased and as a result, the granules on the surface of the bed began to flow continuously into the 10 rpm rotating granulator plate 2 with a diameter of 700 located below 41 ° inclined mm, and then started a circular motion as a result of its rotation. When the granulate continuously supplied to the granulator plate 2 filled a volume equal to approx. 0.15 of the volume of the granulator plate 2, to the thus formed bed, the continuous supply into the apparatus was started, using a plate conveyor, with a capacity of 25 kg / h, fine-grained chalk flour, grain size up to 0.5 mm

PL 234 284 B1 and a moisture content of 0.05, while continuing the continuous supply of wet granules from the granulator plate 1. The continuously supplied chalk fine flour adhered to the wet surfaces also continuously supplied from the granulator plate 1 of the post-natural mud granules, and formed in in this way, the agglomerates obtained a dense structure. As a result of the interaction of inertial forces and circulation movement, the powdered granules were on the surface of the circulating bed and, as a result of its volume increase, they continuously left the granulator pan 2, as they poured over its inclined side.

After drying the obtained bed in a laboratory dryer, the fertilizer was obtained in the form of granules, non-dusting and non-caking, characterized by high flowability. The obtained fertilizer contained 90% of the proper grain fraction with a grain size of 2-10 mm. The mechanical strength determined in the measurements of the compressive strength for granules with dimensions of 4 mm reached a value not lower than 15 N, which ensured the durability of the fertilizer during transport and dosing. The degree of disintegration of granules of the obtained fertilizer in the moist soil environment was within the range of 90-100% of the mass of the fertilizer used for measurements within 12 hours.

P r z k ł a d 2

The granulator plate 1, inclined at an angle of 47 °, with a diameter of 700 mm and a side height of 200 mm, was set into rotation at a speed of 11 rpm, after which it was fed, with a constant capacity of 100 kg / h, screened on a sieve with a mesh diameter 2.5 mm of post-natural mud with a moisture content of 0.38. Due to the rotation of the granulator disc 1, the bed started to circulate due to the inclination of the disc and its rotational movement. When it was established that as a result of the continuous supply of mud, the raw material fills approx. 0.25 volumes of the granulator plate 1, a continuous wetting of the post-saturation mud bed was started using a set of nozzles located directly above the plate with 55% aqueous molasses solution, heated in a separate pressure vessel to temperature of 50 ° C, introduced by a jet through a set of nozzles, at a pressure of 30 kPa, with a capacity of 20 kg / h. The continuous supply of liquid was henceforth simultaneous with the continuous supply of mud to the granulator plate 1. The outlet diameter of the nozzles was 1.5 mm. As a result of the continuous supply of the raw material (mud) and the moisturizing liquid, mixing them during the circulation movement during which the granulation of the post-natural mud contained in it took place, the volume of the granulated bed increased and as a result, the granules on its surface began to flow continuously, through the side of the rotating granulator disk 1 to the granulator disk 2 (1 m in diameter) rotating at a speed of 8 rpm, located below, inclined at an angle of 44 °, and as a result of its rotation, began a continuous circular movement. When the mud pellets, continuously supplied to the granulator plate 2, filled a volume equal to 0.2 of the volume of the granulator plate 2, into the bed thus formed, a continuous supply of fine-grained flour to the interior of the apparatus was started simultaneously by means of a screw conveyor, with a capacity of 50 kg / h Chalky, grain size up to 0.5 mm and moisture 0.05, and mixing of the bed was continued. The continuous supply of 2 fine-grained chalk flour to the granulator plate was carried out simultaneously with the continuous pouring of wet mud granules from the granulator plate 1 to this plate. . The agglomerates created in this way obtained a dense structure, were dry on the surface, did not stick together, and as a result of inertial forces and circulation movement, they found themselves on the surface of the bed flowing in the granulator plate 2, and then, as a result of the increase in the volume of material in the granulator plate 2, they left the plate pouring over its inclined side.

After drying the obtained bed in a laboratory dryer, the fertilizer was obtained in the form of granules, non-dusting and non-caking, characterized by high flowability. The obtained fertilizer contained 90% of the proper grain fraction with a grain size of 2-10 mm. The mechanical strength determined in the measurements of the compressive strength for granules with dimensions of 4 mm reached a value not lower than 15 N, which ensured the durability of the fertilizer during transport and dosing. The degree of disintegration of granules of the obtained fertilizer in the moist soil environment was within the range of 90-100% of the mass of the fertilizer used for measurements within 12 hours.

PL 234 284 B1

Claims (9)

Patent claims 1. Method for the production of granulated organic-lime fertilizer from loose material in the form of post-saturation mud and fine-grained chalk flour, by granulating them, using an aqueous solution of molasses to moisturize them during granulation, characterized in that post-saturation mud is used as the loose material humidity up to 0.5 and graining up to 2.5 mm and fine-grained chalk flour with moisture up to 0.05 and graining up to 0.5 mm, while granulation is carried out in the granulator plate (1) rotating at a speed of 8-25 rotations / min, into which the post-saturation mud is continuously introduced, with a constant efficiency, with the simultaneous moistening of the post-saturation mud bed using a set of nozzles with a 10-70% aqueous solution of molasses at a temperature of 15-55 ° C, introduced in the form of droplets with a diameter of up to 6 mm or in the form of a stream, at a pressure of 10-30 kPa, in an amount such that the flow efficiency of the moisturizing liquid is 0.125-0.3 of the delivered mud efficiency, then the generated gra nule is poured by gravity, continuously, through the inclined side of the granulator plate (1) to the granulator plate (2) rotating at a speed of 6-20 revolutions per minute, where the powdering process is carried out, during which the moist and granulated bed is poured is applied continuously, fine-grained chalk flour with a capacity of 0.15-0.55 of the amount of the bed supplied to the granulator plate (2) from the granulator plate (1), then the dry surface, non-sticky granules obtained during powdering are poured in continuously from the granulator disc (2) through the inclined side, with the use of continuous disc granulators inclined to the horizontal at an angle of 41-49 °, and the volume of the granulator disc (2) is 1.5-2 times the volume of the disc a granulator (1). 2. The method according to p. The method of claim 1, characterized in that the moistening process begins when the volume of the bed of raw material in the granulator plate (1) is 0.15-0.3 of its volume. 3. The method according to p. The method of claim 1 or 2, characterized in that the powdering begins after the bed is filled by gravity fed from the granulator plate (1) with 0.10-0.25 volume of the granulator plate (2). 4. The method according to p. 3. The method of claim 1, 2 or 3, characterized in that the bed granulated in the granulator plate (1) is moistened with an efficiency of 0.15-0.25 of the provided post-saturation mud yield. 5. A method according to any of claims The method of any of claims 1 to 4, characterized in that the fine-grained chalk flour is supplied to the granulator plate (2) with a capacity of 0.2-0.4 of the amount of the bed supplied to the granulator plate (2). 6. The method according to any one of claims The method of any of claims 1 to 5, characterized in that the ratio of the volume of the granulator plate (2) to the volume of the granulator plate (1) is 1.7-1.8. 7. A method according to any of claims from 1 to 6, characterized in that the angle of inclination of the granulator disc (2) to the horizontal is 2-3 degrees smaller than that of the granulator disc (1). 8. A method according to any one of claims according to any of the claims 1 to 7, characterized in that the fine-grained chalk flour is supplied to the granulator plate (2) by means of a plate, screw or belt conveyor. 9. A method according to any one of claims 1 to 9 A method according to any of the claims 1 to 8, characterized in that the post-settling mud is introduced into the granulator disc (1) by means of a disc, screw or belt conveyor. PL 234 284 Β1