RU205091U1 - SUSPENSION SPRAY DRYER - Google Patents

Abstract

The utility model relates to the chemical and food industries and can be used, in particular, in the drying of pectin or inulin. The device for spray drying of suspensions contains a drying chamber with a structural extension in the form of a hollow cylinder, a distribution grid and a block of supplying hydraulic nozzles, while the hollow cylinder is equipped with a cover in the form of a reverse hemisphere with a bottom attached to it by means of a distribution grid, and a block of supplying hydraulic nozzles is installed with the ability to slide along the bottom surface of the bottom and is rigidly connected to a shaft mounted along the axis of the hollow cylinder through a hole in the bottom of the cover, while the hydraulic nozzles themselves are made in the form of curved channels of the "Segner wheel" type, located in the plane of the block of supply hydraulic nozzles, equidistant from surfaces of interface with a lattice and fastening to the shaft perpendicular to the shaft axis. The technical result consists in increasing the intensity of the suspension drying process, which leads to a significant decrease in the adhesion of an almost dry finished product to the walls of the housing. 2 ill.

Description

The utility model relates to the chemical and food industries, including equipment for drying pectin and inulin extracts.

Known spray dryer type SRTs-NK, allowing to organize convective drying of liquid products (Equipment for microbiological production. / Kalunyants K.A., Golger L.I., Balashov V.E. - M .: Agropromizdat, 1987. S. 325-326 ). The dryer is a cylindrical body with a conical bottom. The solution supplied for drying is distributed by a centrifugal device using a disc. The drying agent is fed to the top of the unit through a pipeline at the end of which a switchgear is installed. The product droplets sprayed by the disc are caught in the air stream and rush down. The moisture evaporates, and the remaining small dried particles of the product powder settle in the conical bottom and descend along its walls to the unloading device for feeding the powder into the pneumatic conveying system. The disadvantage of this technical solution is that this design does not solve the problem of protecting or cleaning the inner walls of the drying chamber from contamination growing during operation due to the contact of sprayed particles of the product with the walls of the body.

The closest analogue to the claimed utility model is a spray dryer (RF patent 2377485, IPC F26B 3/12, priority date 11/19/2008, publication date: 12/27/2009). The spray dryer contains a drying chamber, a gas distribution grid, and supplying hydraulic nozzles. The cavity of the drying chamber has a structural elongation in the form of a hollow cylinder, in which a gas duct is installed for supplying a drying agent, and a tubular annular feeder is additionally introduced into the upper part of the drying chamber, connected to the cylinder and equipped on the periphery with hydraulic nozzles directed to the walls of the drying chamber. However, the operation of this dryer is associated with the need to constantly clean the inner walls of the body from adhering particles, including due to the directed action of flows from the nozzles on them, which affects the intensity of the drying process.

The technical task of the proposed utility model is the creation of a device for spray drying of suspensions such as pectin or inulin extracts, which allows for circulating mixing of the product during drying due to the intersection of multidirectional jets, excluding the adhesion of sprayed particles of the product on the walls of the device during tangential motion of droplets of the sprayed suspension.

The technical result is to increase the intensity of the drying process.

The essence of the proposed technical solution lies in the fact that the device for spray drying suspensions includes a drying chamber with a structural extension in the form of a hollow cylinder, a distribution grid and a block of supplying hydraulic nozzles, the hollow cylinder is equipped with a cover in the form of a reverse hemisphere with a bottom attached to it by means of a distribution grid , with the ability to slide along the interface surface with the block of supplying hydraulic nozzles, which is rigidly connected to the shaft mounted along the axis of the hollow cylinder through a hole in the bottom of the cover, while the hydraulic nozzles themselves are made in the middle plane of the block, perpendicular to the axis of the shaft, in the form of curved channels of the type "Segner wheels", located in the plane of the block of supplying hydraulic nozzles, equidistant from the interface with the grid and attachment to the shaft and perpendicular to the shaft axis.

The proposed utility model allows for circulating mixing of the product during drying due to the intersection of multidirectional jets, and this movement makes it possible to increase the residence time of the drops in the chamber during their spiral movement due to the addition of the radial and tangential velocities of the sprayed suspension. These components of the velocities of the falling drops are imparted to them due to the outflow, respectively, from the distribution grid in the radial direction and from the curved channels in the tangential direction. The vertical component of the velocity, due to the droplets' own weight, ensures their spiral movement.

The essence of the proposed utility model is illustrated by drawings, where Fig. 1 shows a longitudinal section of the device, and FIG. 2 section A-A.

The device has

1 - drying chamber,

2 - hollow cylinder,

3 - cover,

4 - bottom,

5 - distribution grid,

6 - shaft,

7 - bottom surface of the bottom,

8 - holes

9 - block of supplying hydraulic nozzles,

10 - curved channels of the "Segner wheel" type.

The device for spray drying of suspensions contains a drying chamber 1 with a structural extension in the form of a hollow cylinder 2, a distribution grid 5, a block of supplying hydraulic nozzles 9, a hollow cylinder 2 is equipped with a cover in the form of a reverse hemisphere 3 with a bottom 4 attached to it by means of a distribution grid 5, and the block of supplying hydraulic nozzles 9 is installed with the ability to slide along the bottom surface of the bottom 7 and is rigidly connected to the shaft 6, mounted along the axis of the hollow cylinder 2 through the hole 8 in the bottom of the cover 4, while the hydraulic nozzles themselves are made in the plane of the block 9, equidistant from the surface conjugation with the bottom surface of the bottom 7 and attachment to the shaft 6 and perpendicular to the axis of the shaft 6 in the form of curved channels 10 of the "Segner wheel" type.

The device works as follows.

The suspension for drying is fed into the drying chamber 1 through the hollow cylinder 2 and the hole in the cover 3, along the shaft 6, which through the holes 8 in the bottom 4, attached by means of the distribution grid 5, is rigidly connected to the block of supply nozzles 9. Getting on the distribution grid 5, the suspension under pressure in the form of jets flowing around the inner hemisphere of the cover 3 is thrown into the drying chamber 1, heated from outside by steam. The other part of the suspension through the holes 8 of the cover 4, also under pressure, enters the block of supplying hydraulic nozzles 9, mated with it along the outer surface of the bottom 7. When outflowing from the nozzles made in the form of curved channels 10 of the "Segner wheel" type, this part of the suspension forces the shaft 6 to rotate. Thus, the outflowing jets not only additionally break up, colliding with the jets flowing through the distribution grid 5, but also impart a tangential velocity of movement to the individual drops of the suspension obtained. This interaction of the two types of jets provides a spiral movement of falling drying drops inside the body 1 of the drying chamber, which ensures their more complete drying, increasing productivity and improving product quality.

An example of a specific implementation

A device for spray drying of Jerusalem artichoke pectin concentrate contains a body of a drying chamber heated by a heater with superheated steam with a pressure of 0.3-0.4 MPa, which ensures a temperature inside the body of 65-70 ° C. It is equipped with a structural extension in the form of a hollow cylinder with a cover and a distribution grid fixed to it. In this case, the block of supplying hydraulic nozzles is mounted through a fluoroplastic flange with the ability to slide along the bottom surface of the bottom, it is rigidly connected to a shaft mounted along the axis of the hollow cylinder through a hole in the bottom of the cover. The hydraulic nozzles are made in the form of curvilinear channels of the "Segner wheel" type in the block plane equidistant from the interface surface with the bottom surface of the bottom and fastened to the shaft. This plane is oriented perpendicular to the shaft axis. With this design of the dryer, it is possible to obtain a product with a moisture content of up to 10-12%.

Thus, the proposed utility model provides an increase in the intensity of the suspension drying process, which leads to a significant decrease in the adhesion of an almost dry finished product to the walls of the housing.

Claims (1)

A device for spray drying of suspensions, which includes a drying chamber with a structural extension in the form of a hollow cylinder, a distribution grid and a block of supplying hydraulic nozzles, characterized in that the hollow cylinder is equipped with a cover in the form of a reverse hemisphere with a bottom attached to it by means of a distribution grid, and the block of feed hydraulic nozzles are installed with the ability to slide along the bottom surface of the bottom and are rigidly connected to a shaft mounted along the axis of the hollow cylinder through a hole in the bottom of the cover, while the hydraulic nozzles themselves are made in the form of curved channels of the "Segner wheel" type, located in the plane of the feed hydraulic nozzle block equidistant from the interface with the lattice and attachment to the shaft and perpendicular to the shaft axis.

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