RU2649501C1 - Drying coating layer with inert fittings - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention relates to a technique of disperse material drying in a fluidized bed and may be used in aniline-color, food, pharmaceutical, microbiological, food, chemical and other industries. Fluidized bed drier with an inert packing contains a body consisting of a cylindrical and conical parts, in which the gas distribution lattice and the solution and coolant supply systems are located, the dryer further comprises inert bodies and a baffle for cleaning inert bodies, made in the form of a perforated grille fixed in the place of transition of the cylindrical part of the body into the conical part. Inertial nozzle is made in the form of a cylindrical ring, on the lateral inner surface of which there are fixed partitions in the form of holes perpendicular to the axis of the ring of washers whose axes are asymmetric to the axis of the ring, or an inert nozzle is made in the form of a block inscribed in a circle, consisting of seven interconnected side edges of hexagonal parallelepipeds without an upper and a lower base, or an inert nozzle is made in the form of interconnected helical spirals, inscribed in a spherical surface with a center lying on the axis of the connection of the spirals, or an inert nozzle is made in the form of at least twelve connected three-bladed propellers, the projection of which on the plane of the drawing is inscribed in a circle with a center coinciding with the center of one of them.

EFFECT: increase in drying performance.

1 cl, 5 dwg

Description

The invention relates to techniques for drying dispersed materials in a fluidized bed and can be used in aniline-colorful, food, pharmaceutical, microbiological, food, chemical and other industries.

The closest technical solution to the claimed object is a dryer for drying solutions, suspensions and pastes in a fluidized bed according to the patent of the Russian Federation No. 226302, F26B 17/10, containing a housing consisting of a cylindrical and conical parts, which contains a gas distribution grill and solution supply systems and coolant (prototype).

The disadvantage of the prototype is the relatively low productivity of drying the final product.

The technical result is an increase in drying productivity due to the intensification of heat and mass transfer by feeding the material in a mixture with a coolant by two counter flows, one of which is formed in a fluidized bed.

This is achieved by the fact that the fluidized bed dryer with an inert nozzle contains a housing consisting of a cylindrical and conical parts, in which a gas distribution grill and solution and coolant supply systems are placed, the dryer additionally contains inert bodies and an inert body cleaner, made in the form of a perforated grate fixed at the junction of the cylindrical part of the body into the conical part, and at least two nozzles are placed on the lateral surface of the conical part of the body, into which high temperature coolant, and they are installed tangentially to the casing and create a rotating flow of inert bodies, while the gas distribution grill contains pneumatic acoustic nozzles inserted into the nozzles into which the high-temperature coolant is supplied, and the lid of the apparatus is also equipped with pneumatic acoustic nozzles inserted into the nozzles for the high-temperature coolant moreover, the nozzles are enclosed in a cooling casing, and for unloading the dried granules in the grate a calibrated opening is provided The term, wherein the bottom portion of the housing located trapping system comprising a speaker unit, where the acoustic agglomeration of fine particles, a cyclone and a baghouse hopper. The inert nozzle is made in the form of a cylindrical ring, on the side inner surface of which partitions are fixed in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring, or the inert nozzle is made in the form of a block inscribed in a circle, consisting of seven hexagonal faces connected to each other parallelepipeds without upper and lower bases, or an inert nozzle made in the form of interconnected helical spirals inscribed in a spherical surface with a center, l hedging on the axis of the connection of spirals, or an inert nozzle is made in the form of at least twelve three-bladed propellers connected to a block, the projection of which onto the drawing plane fits into a circle with a center coinciding with the center of one of them.

In FIG. 1 shows a fluidized bed spray dryer with an inert nozzle, general view; in FIG. 2-5 - embodiments of the inert nozzle 11.

The spray dryer of a fluidized bed with an inert nozzle contains a housing 1 consisting of a cylindrical and conical parts, in which a gas distribution grid 2 is placed, an inert nozzle in the form of inert bodies 11, a chipper for cleaning inert bodies, made in the form of a perforated grid 10, fixed at the junction the cylindrical part of the housing 1 in the conical part. Inert bodies 11 are located between the gas distribution grill 2 and the perforated grill 10. At least two nozzles are placed on the lateral surface of the conical part of the housing 1, which supply a high-temperature coolant, which are installed tangentially to the housing and create a rotating flow of inert bodies 11.

The gas distribution grill 2 contains pneumatic acoustic nozzles 3 inserted into nozzles 4 into which a high-temperature coolant is supplied. The cover 5 of the apparatus is also equipped with pneumatic acoustic nozzles 6 inserted into nozzles 7 for a high-temperature coolant. The nozzles are enclosed in a cooling casing 8. For unloading the dried granules, a calibrated hole is provided in the grate 9. The chipper for cleaning inert bodies 11 can be made in the form of a packet of grids assembled from metal springs (not shown in the drawing), connected or in contact with each other.

Spray fluidized bed dryer with an inert nozzle operates as follows.

The solution (suspension, pulp) is fed using nozzles 3 and 6 into counter-directed flows of a high-temperature coolant. The main moisture removal occurs over the fluidized bed, and the drying of the granules formed is carried out in the fluidized bed, which allows to intensify the processes of heat and mass transfer and granulation.

For unloading the dried granules in the grate 2, a calibrated hole 9 is provided. The initial solution is sprayed, dried, chipped and leaves through the nozzle 12 into the collection system: first to the acoustic unit 13, where the fine particles are agglomerated, and then to the cyclone 14 and bag filter 15 with a hopper. As a result of drying, fine powders of products with humidity up to 0.8% are obtained.

It is possible to perform an inert nozzle 11 (Fig. 2) in the form of a cylindrical ring, on the side, inner surface of which partitions are fixed in the form of washers perpendicular to the axis of the ring with holes whose axes are asymmetric to the axis of the ring.

It is possible to perform an inert nozzle 11 (Fig. 3) in the form of a block inscribed in a circle, consisting of seven hexagonal parallelepipeds connected together by side faces without upper and lower bases.

It is possible to perform an inert nozzle 11 (Fig. 4) in the form of interconnected helical spirals inscribed on a spherical surface with a center lying on the axis of the spiral connection.

It is possible to perform an inert nozzle 11 (Fig. 3) in the form of at least twelve three-bladed propellers connected to a block, the projection of which onto the plane of the drawing fits into a circle with a center coinciding with the center of one of them.

Claims (1)

A fluidized bed dryer with an inert nozzle, containing a housing consisting of a cylindrical and conical parts, in which a gas distribution grill and solution and coolant supply systems are placed, it additionally contains inert bodies and a chipper for cleaning inert bodies, made in the form of a perforated grate fixed in place the transition of the cylindrical part of the casing to the conical part, and at least two nozzles are placed on the lateral surface of the conical part of the casing, into which high-temperature coolants are supplied and they are installed tangentially to the casing and create a rotating flow of inert bodies, while the gas distribution grid contains pneumatic acoustic nozzles inserted into the nozzles into which the high-temperature coolant is supplied, and the lid of the apparatus is also equipped with pneumatic acoustic nozzles inserted into the nozzles for the high-temperature coolant, the nozzles are enclosed in a cooling casing, and for unloading the dried granules in the grate there is a calibrated hole, and in the lower part the housing is a collection system, which includes an acoustic installation, where there is an acoustic agglomeration of small particles, a cyclone and a bag filter with a hopper, characterized in that the inert nozzle is made in the form of a cylindrical ring, on the lateral, inner surface of which there are fixed partitions in the form of a ring perpendicular to the axis washers with holes, the axes of which are asymmetrical to the axis of the ring, or an inert nozzle is made in the form of a block inscribed in a circle, consisting of seven interconnected side with hexagonal parallelepipeds without upper and lower bases, or an inert nozzle made in the form of interconnected helical spirals inscribed in a spherical surface with a center lying on the axis of the spiral connection, or an inert nozzle made in the form of at least twelve three-bladed propellers connected to a block, whose projection on the drawing plane fits into a circle with a center coinciding with the center of one of them.

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