RU126962U1 - GRANULATION TOWER - Google Patents

Abstract

1. A granulation tower including a hollow body, a melt sprinkler in the upper part, air supply windows with guide plates and a granule receiving device in the lower part of the tower, characterized in that the guide plates in the upper part of the air supply windows are set so that they are inclined that the inner edge of the plates is located above the outer edge, the guide plates in the central part of the air supply windows are installed horizontally, the guide plates in the lower part of the air supply windows are installed tilted so that the inner edge of the plates is placed below the outer edge. 2. The granulation tower according to claim 1, characterized in that the guide plates are mounted with the possibility of changing the angle of inclination.

Description

The utility model relates to plants for granulating products from their melts, in particular, for the production of granular fertilizers, and can be used in chemical and other industries.

Known and closest to the proposed granulation tower, including a hollow body, a melt sprinkler in the upper part, air supply windows with guide plates and a device for receiving granules in the lower part of the tower (CN 1293187, B01J 2/04, B01D 47/06, 1999).

In this device, all the guide plates located in the windows for supplying air are mounted parallel to each other with an inclination to the horizon so that the inner edge of the plates is placed above the outer edge. This ensures the direction of the entire air flow entering the inside of the tower through the windows for air supply, at an angle to the horizon up. In this case, part of the flow of falling granules, which is located on the periphery of the horizontal section of the flow, is predominantly cooled in contact with the upward air flow. At the same time, a significant part of the air flow rises along the wall of the granulation tower, bypassing the flow of falling granules. These circumstances lead to the irrational use of the entire volume of air entering the granulation tower and, as a result, insufficiently effective cooling of the falling granules, especially those located closer to the central part of the flow.

The problem solved by the proposed utility model is to improve existing plants for producing granular products.

The technical result obtained by the implementation of the utility model is to optimize the temperature regime inside the granulation tower.

To achieve this result, a granulation tower is proposed including a hollow body, a melt sprinkler in the upper part, air supply windows with guide plates and a receiving and guiding device in the lower part of the tower, characterized in that the guide plates in the upper part of the air supply windows are installed with so that the inner edge of the plates is placed above the outer edge, the guide plates in the central part of the air supply windows are installed horizontally, the guide rails Stina at the bottom of windows for air supply are slanted so that the inner edge of the plate placed below the outer edge. The angle of the guide plates can be changed.

The guide plates, which are installed in the windows for air supply with different angles of inclination, allow for the distribution of upward air flow in several directions over the cross section of the tower.

The guide plates in the upper part of the air supply windows are inclined so that the inner edge of the plates is placed above the outer edge. This allows you to ensure the direction of the air flow at an angle to the horizon up to the peripheral part of the flow of falling granules.

Guide plates in the central part of the air supply windows are mounted horizontally. This allows you to provide a straightforward direction of the part of the air flow deep into the flow of falling granules, which leads to efficient cooling of the granules located in the central part of the flow, and also prevents air from passing along the granulation tower wall past the granule flow.

The guide plates at the bottom of the air supply windows are slanted so that the inner edge of the plates is located below the outer edge. This allows you to ensure the direction of the part of the air flow at an angle to the horizontal downward to blow around the surface of the device for receiving granules. Intensive blowing of the surface of the device for receiving granules provides additional cooling and solidification of the granules at the final stage of their formation. If the device for receiving granules is made in the form of an inclined structure, the direction of a part of the air flow to blow around the surface of the device for receiving granules allows the formation of such a final flight path of the granules, in which they collide with the surface of the device for receiving granules at the most acute angle. This reduces the risk of destruction of the granules and the occurrence of sticking of granules on the surface of the device for receiving granules.

Thus, the joint placement of plates with different angles of inclination allows the most rational distribution of cooling air between the falling granules at the final stage of the fall and formation of granules and ensures their effective cooling.

The angles of inclination of the guide plates are set when setting the granulation mode when the tower is put into operation and can be changed during operation, if necessary.

The essence of the utility model is illustrated by the attached figure, which shows in section a specific embodiment of the proposed device.

In accordance with the figure, the granulation tower includes a cylindrical housing 1, a dispersant 2, air supply windows 3 with guide plates 4, a device for receiving granules 5, a conveyor 6.

The proposed device operates as follows. The urea melt is dispersed with dispersant 2 in the upper part of the housing 1. During the flight, the droplets freeze and the granules formed fall onto the surface of the receiving and guiding device 5. Atmospheric air enters the tower through the air supply windows 3 and the guide plates 4 are distributed inside the housing 1 in various directions and interacts with falling granules. From the surface of the device for receiving granules 5, granules are poured down onto a conveyor 6, which removes granules from the granulation tower for subsequent cooling and / or storage.

Claims (2)

1. A granulation tower including a hollow body, a melt sprinkler in the upper part, air supply windows with guide plates and a granule receiving device in the lower part of the tower, characterized in that the guide plates in the upper part of the air supply windows are set so that they are inclined that the inner edge of the plates is located above the outer edge, the guide plates in the central part of the air supply windows are installed horizontally, the guide plates in the lower part of the air supply windows are installed tilted so that the inner edge of the plates is placed below the outer edge. 2. The granulation tower according to claim 1, characterized in that the guide plates are mounted with the possibility of changing the angle of inclination.

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