SU775559A1 - Dryer for loose materials - Google Patents

Description

one

The invention relates to equipment for drying solid bulk materials and can be used in chemical, energy, and food procuring.

Dryers for powdered materials are known, comprising a drying chamber divided by a membrane into two volumes. The lower volume is filled with liquid, It is equipped with a pulse and an electric discharge located in it, and in the upper volume on the membrane there is a material to be dried and means for blowing it out l.

A disadvantage of the known dryers is the high cost of electricity and their low productivity.

The closest to the technical essence of the present invention is a 20-second dryer for bulk material,. containing a vibration-mounted drying chamber with a pulsed electrovibrator connected to a -25 current source 2.

The disadvantages of these dryers are also high energy costs and low material drying rates.

The aim of the invention is to intensify the drying process and reduce energy consumption.

This goal is achieved by the fact that in a dryer for bulk material containing a vibration-mounted drying chamber with a pulsed electrovibrator connected to an electric current source, the electric vibrator is made in the form of electromagnetic inductors, and the electric current source is supplied with an electrical energy storage device.

The drawing shows schematically a dryer for bulk solids.

Dryer for bulk material contains a drying chamber 1 and electromagnetic inductors 2 located in its immediate vicinity. Electromagnetic inductors 2 are several turns of wire enclosed in a dielectric sheath and are connected, for example, through thyristors 3 to an electric current source 4 having a storage ring 5 electrical energy, for example, a capacitor and a device for charging it, including a step-up transformer 6 and a rectifier 7.

The thyristors 3 are connected to the software switch 8. Between the electromagnetic inductor 2 and the surface of the drying chamber 1 is a plate 9 made of a material with high electrical conductivity, for example copper or aluminum, in the case of making the drying chamber 1 of electrically conductive material the plate 9 may be missing.

To remove surface moisture released during the drying of the bulk material, the drying chamber is equipped with a nozzle 10 and nozzles 11, which are made on the opposite wall of the drying chamber 1 and are connected to a source of compressed air 12.

The dryer works as follows.

When a signal is sent from the program switch 8 to one of the thyristors 3, the latter opens and the electric energy storage device 5 is discharged through it to the corresponding electromagnetic inductor 2. The discharge current pulse, passing through the turns of the electromagnetic inductor 2, creates an electromagnetic field pulse around it. Under the action of an electromagnetic field in the plate 9 a secondary short-term pulsed current is induced. The interaction of the current flowing through the electromagnetic inductor 2 and the induced current leads to a sharp creep of the plate 9 together with the wall section of the drying chamber 1 in contact with it. Thus, a pulsed me takes place. Changes in the wall of the drying chamber result in a pulsed elastic deformation. In this case, the particles of the bulk material in the drying chamber are displaced relative to each other, which leads to compaction of the material and the release of moisture from it to the surface. The compaction effect is enhanced due to the effect on the bulk material of single compression waves emitted into the material from the excitation sites in the wall of the drying chamber 1 of pulsed elastic deformation. Surface moisture is removed from the drying chamber periodically or in

the end of the drying process through the drain pipe 10 by filing on the surface of the dried material jets of compressed air through the nozzle 11.

In the case of the series connection of several electromagnetic 5 inductors 2, there is a deformation wave interference in the wall of the drying chamber, which provides a more uniform effect on the material being dried.

The device operates in a pulsed mode. After applying a current pulse to an electromagnetic inductor, there is a pause during which energy is accumulated in the accumulator 5,

5 then spent on the next impulse. The duration of the pause is 10-10000 times longer than the pulse duration. This makes it possible to obtain a pulse power many times greater than the power of the source of electric current used.

The use of the electric energy storage in the dryer, which produces the accumulation of energy of the next pulse, makes it possible to reduce the drying time of the bulk material and reduce the cost of electrical energy for the drying press.

Claims (2)

1. Author's certificate of the USSR 160985, cl. F 26 B 5/02, 1963.. 2. Authors certificate of the USSR 214395, cl. Р 26 В 5/02, 1965. ri