PL233471B1 - Method for producing granular mineral lime fertilizer - Google Patents

Description

Description of the invention

The present invention relates to a method of producing granulated calcium mineral 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 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.

From the Polish patent application P.417841 of the applicant, there is known a method of producing a calcium mineral fertilizer from post-saturation mud in a disc granulator with periodic operation. However, this method is associated with a large production energy expenditure, as well as the production of granules with different physical properties.

The aim of the invention is to develop a method for the production of granulated mineral fertilizers - calcium from post-saturation mud that requires less energy and allows the production of fertilizer with uniform properties of all granules.

The method of producing granulated lime mineral fertilizer from loose material in the form of post-saturation mud by granulating it, using water to moisten it during granulation, according to the invention, consists in the fact that post-saturation mud is used as the loose material from which the fertilizer is made. with a moisture content of up to 0.5 and a grain size of up to 2.5 mm, whereby the post-saturation mud is first introduced into the horizontal drum granulator in such an amount that the ratio of the volume of the introduced mud to the volume of the granulator drum is 0.15-0.40 , then the mud is granulated at a rotational speed of the granulator drum of 10-25 rpm for 4-10 minutes with simultaneous spraying of the granulated bed with water at a temperature of 10-21 ° C, introduced in the form of drops with a diameter of up to 6 mm or in the form of stream, at a pressure of 10-30 kPa in an amount of 100-280 parts by weight per 1000 parts by weight of the bed. Then, the post-saturation mud is applied to the bed flowing in the drum in an amount of 150-700 parts by weight per 1000 parts by weight of the granulated bed in the drum and granulation is continued for the next 4-20 minutes, with water being introduced over the flowing bed using a set of nozzles mounted axially inside the granulator drum.

The method according to the invention enables the moisturizing liquid to be supplied evenly, especially along the axis of the drum, by means of a set of nozzles, which results in the homogenization of the properties of all fertilizer granules. Moreover, the production of the fertilizers according to the invention requires less energy, and the simple design of the drum granulators reduces the risk of complications in the production of fertilizers. Moreover, the method according to the invention allows the production of fertilizers with higher efficiency than when using disc granulators.

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 fertilizer containing calcium compounds of good quality and composition, and also containing various minerals. Introducing the post-saturation mud into the granulator drum in the last stage of the process causes the loose material to cover the dampened surfaces of previously formed agglomerates, thus providing granules forming a non-caking bed with a flowability allowing for free transport of granules to subsequent technological operations. The calcium mineral 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 method of producing a fertilizer based on post-saturation mud according to the invention also makes it possible to use existing plants and adapt them to the production of the fertilizer in question.

The process of the invention is illustrated by the following examples.

P r z k ł a d 1

In the drum of a horizontal drum granulator with a diameter of 500 mm and a length of 400 mm, 11,500 g of post-saturation mud screened on a sieve with a mesh size of 2.5 mm with a moisture content of 0.38 were placed, and then the granulator drum was rotated at a speed of 11

Revolutions / minute. After the material in the granulator was circulated, it was wetted with a set of nozzles for 7 minutes with water at 18 ° C, introduced with 4.5 mm drops through nozzles, under a pressure of 18 kPa in the amount of 1200 g. The outlet diameters of the nozzles were 1, 0 mm. After 5 minutes of mixing the contents of the granulator, during which the post-saturation mud contained in it was granulated, another 2300 g of post-saturation mud with a moisture content of 0.38 and grain size of 2.5 mm was poured onto the thus formed bed, and the bed was mixed for 5 minutes until the moment when all the re-injected post-saturation mud adhered to the previously formed, surface-moist granules of the post-saturation mud, and the agglomerates formed in this way obtained a dense structure.

After drying the obtained bed in a laboratory dryer, the fertilizer was obtained in the form of granules with a grain size composition in the range of 1 - 10 mm, non-dusty and non-caking, characterized by high flowability and compressive strength exceeding 5 N.

P r z k ł a d 2

In a horizontal drum granulator with a batch operation, 350 mm in diameter and 240 mm long, 2,500 g of post-saturation mud screened on a sieve with a mesh size of 2.5 mm with a moisture content of 0.38 was placed, and then the granulator drum was rotated at a speed of 18 revolutions / minute. After the material was circulated in the granulator, it was wetted with a set of nozzles for 5.5 minutes with water at a temperature of 15 ° C introduced by a jet, through nozzles, under a pressure of 20 kPa in an amount of 600 g. The outlet diameters of the nozzles were 1.0 mm. After 7 minutes of mixing the contents of the granulator, during which the post-saturation mud contained in it was granulated, another 500 g of post-saturation mud with a moisture content of 0.38 and grain size up to 2.5 mm was poured onto the bed thus formed, and the bed was mixed for 7 minutes until when all of the additionally dosed post-saturation mud adhered to the previously formed, surface-moist granules of post-saturation mud, and the agglomerates formed in this way obtained a dense structure.

After drying the obtained bed in a laboratory dryer, the fertilizer was obtained in the form of granules with a grain size composition in the range of 1-10 mm, non-dusty and non-caking, characterized by high flowability and compressive strength exceeding 5 N.

Claims (1)

Patent claim 1. The method of producing granulated calcium mineral fertilizer from loose material in the form of post-saturation mud by granulating it, using water to moisten it during granulation, characterized in that post-saturation mud is used as the loose material from which the fertilizer is made moisture content up to 0.5 and grain size up to 2.5 mm, whereby the post-saturation mud is first introduced into the horizontal drum granulator in such an amount that the ratio of the volume of the introduced mud to the volume of the granulator drum is 0.15-0.40, then the mud is granulated at the rotational speed of the granulator drum of 10-25 rpm for 4-10 minutes with simultaneous spraying of the granulated bed with water at a temperature of 10-21 ° C, introduced in the form of drops with a diameter of up to 6 mm or in the form of a stream , under a pressure of 10-30 kPa in an amount of 100-280 parts by weight per 1000 parts by weight of the bed, then a post-water mud is applied to the bed flowing in the drum 150-700 parts by weight per 1000 parts by weight of the granulated bed in the drum and granulation continued for another 4-20 minutes, with water being introduced over the flowing bed by means of a set of axially fixed nozzles inside the granulator drum.