UA122620C2 - ROTARY VIBROGRANULATOR OF NITROGEN AND COMPLEX FERTILIZERS - Google Patents

Abstract

The invention relates to the field of chemical engineering, in particular to apparatus used for granulation, mainly fertilizers. The melt vibrating granulator comprises a housing with a melt introduction pipe, a rotating dispersing vessel with a frequency filter and holes for melt leakage mounted on a hollow shaft, a vibration source for crushing melt jets, a melt distributor, pressure vanes and blades. The vibration source is additionally equipped with a magnetic nozzle, which is located inside the fixed body of the vibrator with a gap to it and is mounted on a rod with the ability to move in a vertical plane and rotate around its axis. EFFECT: increase of monodispersity of granulometric composition of granules.

Description

The invention belongs to the field of chemical engineering, in particular to devices used for granulating (spraying, dispersing) melts in granulation towers, and can be used in the chemical industry in the production of granular nitrogen fertilizers (ammonium nitrate, urea), compound fertilizers.

A known rotating vibrogranulator of melts of nitrogen and complex fertilizers, which contains a housing with a nozzle for introducing melt or suspension, a bearing unit, in which a hollow shaft with a pulley for the drive is mounted, to which a rotating dispersing container is mounted, which has the form of a paraboloid or a cylinder, or a cone, or a torus or a spherical surface and in which outflow holes are made, placed at different heights and at different distances from the axis of rotation of the dispersing container so that the axes of the outflow holes are directed in different directions at different angles to the horizon, a stationary source of vibration containing a vibrator and a rod with a disc-emitter, which is powered by a clutch-collector (patent of Ukraine for an invention No. 80464, IPC (2006) VO1 2/02, 08.25.2005, published on 09.25.2007 Bull. Mo. 15, 2007|.

The disadvantage of the known device is the transmission of vibration to the dispersing capacity of the rotating vibrogranulator of melts of nitrogen and complex fertilizers through the collector coupling. This is explained by the fact that when the vibration is transmitted from the vibrator, which is fixed to the body and does not rotate, to the dispersing container in the coupling-collector, the amplitude of the oscillations is weakened and additional oscillations occur due to the vibration in the coupling itself. As a result of this, additional harmonics appear, which, together with the main ones, are superimposed on the jet of liquid flowing out of the holes of the dispersing container of the rotating vibrogranulator of melts of nitrogen and complex fertilizers, and as a result, to a decrease in the monodispersity of the granulometric composition of the obtained granules.

The well-known rotary vibrogranulator of melts of nitrogen and complex fertilizers (patent

of Ukraine for the invention 46121, IPC (2006) VO1 2/02, VO1)) 2/18, published 05.15.2002, bull. Mo 5| The specified rotating vibrogranulator of melts of nitrogen and complex fertilizers is the closest to the present invention in terms of technical essence and the effect achieved, and therefore it is accepted as a prototype.

This rotary vibrogranulator of melts of nitrogen and complex fertilizers contains a body with a nozzle for the introduction of melt, a bearing assembly in which a hollow shaft with

With a drive, a rotating dispersing container fixed on a hollow shaft with a frequency filter of vibrations in the form of ring corrugations, and with holes for the outflow of melt, which are placed at different heights and at different distances from the axis of rotation of the dispersing container so that the axes of the outflow holes are directed in different directions and at different angles to the horizon, a source of vibrations for crushing jets of melt on drops, which includes a vibrator with a fixed body and a rod rigidly fixed in the lower part of the dispersing container, a distributor of the melt, pressure vanes and a mesh filter.

The disadvantage of the known device is the transmission of vibration to the dispersing capacity of the rotating vibrogranulator of melts of nitrogen and complex fertilizers from the source of vibration through the movable coupling or its rotation together with the dispersing capacity.

The connection of the rod rigidly fixed to the bottom of the rotating dispersing container with the non-rotating source of vibrations through the collector coupling leads to a weakening of the amplitude of oscillations and the occurrence of additional oscillations due to the vibration of the coupling itself. As a result of this, additional harmonics appear, which, together with the main ones, are superimposed on the jet of liquid flowing from the holes of the dispersing container of the rotating vibrogranulator of melts of nitrogen and complex fertilizers, and as a result, the monodispersity of the granulometric composition of the obtained granules decreases.

The connection of the rod rigidly fixed to the bottom of the rotating dispersing container with the rotating source of vibrations with the help of a spool leads to unstable operation of the pneumatic vibrator as a result of the influence of its rotation speed together with the dispersing container on the process of vibration excitation, the impossibility of maintenance and correction of the vibration frequency in depending on the load on the sprayed product, without stopping the rotating vibrogranulator of melts of nitrogen and complex fertilizers and production as a whole, and as a result, to a decrease in the monodispersity of the granulometric composition of the obtained granules.

The basis of the invention is the task of improving the design of the rotary vibrogranulator of melts of nitrogen and complex fertilizers by changing its design, as a result of which the mechanism of applying vibration to the jet of liquid flowing from the holes of the dispersing container is improved, and the monodispersity of the granulometric composition of the obtained granules is increased.

The task is solved by the fact that the rotary vibrogranulator of melts of nitrogen and complex fertilizers, which contains a housing with a nozzle for introducing the melt, a bearing assembly in which a hollow shaft with a drive is mounted, a rotating dispersing container fixed on the hollow shaft with a frequency filter of vibrations in the form of ring corrugations and with holes for the outflow of the melt, which are placed at different heights and at different distances from the axis of rotation of the dispersing container so that the axes of the outflow holes are directed in different directions and at different angles to the horizon, a source of vibrations for crushing jets of melt on a drop, which includes a vibrator with a fixed body and a rod rigidly fixed in the lower part of the dispersing container, a melt distributor, pressure vanes and a mesh filter, according to the invention, the vibration source is additionally equipped with a magnetic nozzle, which is located inside the fixed body of the vibrator with a gap to it and fixed on the rod with the possibility of movement vertically plane and rotation around its axis.

Applying vibration to the jet of liquid flowing from the holes of the rotating dispersing container by means of a fixed vibrator body to a movable magnetic nozzle, which is attached to the rod and the dispersing container and can move in a vertical plane and rotate about its axis, makes it possible to transmit vibration to the rod and rotating dispersive capacity without weakening the amplitude of oscillations and the occurrence of additional harmonics of oscillation. This is explained by the fact that during the transmission of vibration in the vibrator-rod system there are no additional devices, due to which harmonics of non-operating vibration frequencies can arise and their negative impact on the process of crushing the melt jets into drops. Streams of melt under the influence of the operating frequency of the vibrator at a stable flow rate of the melt from the dispersing container will break up into uniform drops of the same size. Thus, there are no devices in the vibration source that distort the parameters of the operating frequency of vibration and its amplitude, and as a result, this leads to an increase in the monodispersity of the granulometric composition of the obtained granules.

The invention is illustrated by drawings, where fig. 1 shows an axial section of a rotary vibrogranulator of melts of nitrogen and complex fertilizers, in fig. 2 shows a diagram of the source of vibrations, in fig. C shows holes for the outflow of melt.

The proposed rotary vibrogranulator of melts of nitrogen and complex fertilizers contains

З housing 1 (Fig. 1) with a nozzle 2 for feeding the melt into the ring collector C with an annular channel 4 for further feeding the melt into the lower part of the housing 1, a bearing unit 5, in which a hollow shaft b with a drive 7 is mounted, a rotating dispersing container 8 in the form of an inverted cone with a frequency filter of 9 vibrations in the form of ring corrugations.

The dispersing container 8 has holes 10 (Fig. 3) for the outflow of melt, which are located at different heights and at different distances from the axis of rotation of the dispersing container 8 so that the axes of the outflow holes are directed in different directions and at different angles to the horizon.

Pressure vanes 11 would be attached to the hollow shaft from below to give the melt a rotational movement and to pump it to the melt distributor 12 and the mesh filter 13, thanks to which the melt is refined and its flow is laminarized. Further, the melt enters the openings 10 of the dispersing container 8.

A disk 14 with a flange 15 is mounted on top of the pressure vanes 11 with a gap to the annular channel 4, to which the dispersing container 8 is attached.

A source of 16 vibrations is mounted in the upper part of the case 1.

In Fig. 2 shows a diagram of the vibration source 16, which includes a fixed body 17, a movable magnetic nozzle 18 and a rod 19. The rod 19 passes through the hollow shaft 6 and is attached from below to the dispersing container 8. The magnetic nozzle 18 is located inside the fixed body 17 of the vibrator with a gap to it and fixed on the rod 19. The magnetic nozzle 18 can move in the vertical plane and rotate around its axis in the body 17 of the vibrator. The vibration is transmitted from the fixed body 17 of the vibration source 16 to the magnetic nozzle 18 with the rod 19.

In Fig. C shows the holes 10 for the outflow of melt from the dispersing container 8, which are located at different heights and at different distances from the axis of rotation so that the axes of the holes are directed in different directions at different angles to the horizon.

The granulator works like this. The melt is supplied to the housing 1 through the melt supply nozzle 2, from which it enters the annular collector C and the annular channel 4. From the annular channel 4, the melt enters the lower part of the housing 1 to the pressure vanes 11, where it is given a rotational movement to push it to the distributor 12 of the melt and mesh filter 13, thanks to which the melt is further cleaned and its flow is laminated. Further, the melt enters the openings 10 of the dispersing container 8, from where it flows in the form of jets into the cavity 60 of the tower.

With the help of the stationary body 17 of the vibrator, which acts on the movable magnetic nozzle 18, which is attached to the rod 19, regular frequency pulses are imposed on the dispersing capacity 6, which create excitation on the melt jets flowing from the holes 10. Under the influence of mechanical oscillations (vibrations) , which are created by the vibration source 16, melt jets break up into drops (droplets) of the same size. The frequency filter 9 prevents the transmission of vibration created by the vibration source 16 to the body 1 of the granulator and shaft 6, as well as the transmission of vibration created by the rotation drive 7 (bearing unit 5, shaft 6) to the body 1 of the granulator.

Due to the fact that the holes 10 in the dispersing container 8 are made at different angles to the vectors of circumferential speeds of movement of the holes and are placed at different distances from the axis of rotation, the cross-section of the granulation tower is irrigated.

The use of the proposed design of the rotary vibrogranulator of melts of nitrogen and complex fertilizers provides, in comparison with existing granulators, the following advantages: improvement of the granulometric composition of the poured product due to the regular disintegration of the jets of melt flowing from the holes of the rotating dispersing container, as a result of the imposition of oscillations (vibrations) on them , created by a vibrator; increasing the cooling efficiency of the slurry in the granulation tower due to the monodisperse composition of the slurry product.

The use of a vibrogranulator of melts of nitrogen and complex fertilizers allows you to obtain high-quality granules, significantly increase the reliability of granulation equipment in the production of granular fertilizers.

Claims (1)

FORMULA OF THE INVENTION Rotary vibrogranulator of melts of nitrogen and complex fertilizers, containing a housing with a nozzle for introducing the melt, a bearing assembly in which a hollow shaft with a drive is mounted, a rotating dispersing container fixed on the hollow shaft with a frequency filter of vibrations in the form of ring corrugations and with holes for outflow of melt, which are placed at different heights and at different distances from the axis of rotation of the dispersing container so that the axes of the outflow holes are directed in different directions and at different angles to the horizon, a source of vibrations for crushing jets of melt on the drop, which includes a vibrator with a fixed body and a rod rigidly fixed in the lower part of the dispersing container, a melt distributor, pressure vanes and a mesh filter, which is distinguished by the fact that the vibration source is additionally equipped with a magnetic nozzle, which is located inside the fixed body of the vibrator with a gap to it and fixed on the rod with the possibility of vertical movement planes and that rotation around its axis.