SE465333B - Method and arrangement for drying non-metallic material - Google Patents

Abstract

Method and arrangement for drying non-metallic material, the material being fed, in a moist or wet state, preferably continuously via a conveyor belt 3 into a drying zone 2 of a drying tunnel 1. In a free-standing unit 4, microwaves are generated by means of magnetrons. The microwaves are guided via a waveguide into the drying zone 2, where they are distributed uniformly over the wet material. One or two resonant tubes 6, 7 are connected to the drying zone 2. Infrasound is introduced into the drying zone 2 via these tubes 6, 7. Hot, dry air is introduced into the drying zone 2 via an inlet 8. Outgoing moist air is extracted via an outlet 9. <IMAGE>

Description

465 335 z Infrasound is used today in both cooling and drying processes, where its purpose is to increase the heat exchange between a material and the surrounding air.

Furthermore, it is previously known to clean boilers in incineration plants using infrasound. The infrasound does not dry the wet material directly through, but only has an effect on the surface. The disadvantages of conventional drying can therefore not be solved by microwaves or infrasound alone.

The present invention has quite surprisingly been able to eliminate the above difficulties and provide a process for drying non-metallic materials.

The method is characterized in that the material is in a moist or wet state, preferably continuously via a conveyor belt or the like. fed into a drying zone on a drying tunnel.

The drying zone is connected via waveguides to a stand-alone unit, where microwaves are generated. The microwaves are introduced into the drying zone through these waveguides and then distributed evenly over the moist or wet material.

Infrasound is introduced into the drying zone via one or two resonant tubes.

In addition, hot, dry air is fed continuously into the drying zone, preferably in countercurrent to the direction of transport of the moist or wet material.

The supplied hot air usually has a temperature of about 50-200 ° C. Of course, there is nothing to prevent the temperature from being outside that range.

The microwaves are generated by magnetrons, which are suitably air-cooled.

The material dried according to the invention can have many different shapes. It can i.a. present as a more or less viscous or solid mass, lumps, granules or particles. 3 465 zssf.

The speed of the conveyor belt is regulated with regard to how difficult the material is to dry. Often the speed is about 0.0l - 2 m / min, preferably about 0.1 - 1.0 m / min. The residence time in the drying tunnel is often 10-30 minutes.

The frequency of the infrasound used is between 0 and 20 Hz.

In addition to the magnetrons, the above-mentioned independent separate unit can suitably accommodate frequency converters and power supplies for the magnetrons. By placing the magnetrons in this separate stand-alone unit according to the invention, the problem of the vibration sensitivity of the magnetrons can be avoided.

The separate unit can of course dampen vibration without major difficulties.

The invention also comprises a device for drying wet or moist, non-metallic material. The device is characterized in that it comprises a drying tunnel with a drying zone through which a preferably continuously driven conveyor belt or the like. runs. On that belt, the wet or damp material is fed into the drying tunnel.

The device also comprises a stand-alone unit, where microwaves are generated by means of a suitable number of magnetrons. This unit is connected to the drying zone via waveguides, the microwaves being intended to be introduced into the drying zone through these waveguides and then distributed evenly over the moist or wet material on the belt.

The device also has one or two resonant tubes connected to the drying zone for introducing infrasound therein. Furthermore, the device comprises inlet for hot, dry air to the drying zone and outlet for outlet moist air from it.

In a preferred embodiment of the device according to the invention, it comprises two resonant tubes, the inlet of the sound waves from one resonant tube opening at one end of the drying zone, while the inlet of the sound waves from the other resonant tube opens into the other end of the drying zone.

Because the sound in the two resonant tubes has the same frequency and works in opposite phase in relation to each other, a very low sound pressure is produced in the drying zone. The particle velocity of the sound also becomes high in the drying zone with a low input power.

The excitation of the sound waves suitably takes place with a device called Exigator, which is described in Swedish patent no. 446,157, European patent no. 077,364 and Swedish patent application no. 8701461-9.

Through the ingenious combination of microwave and infrasound technology according to the invention, a very fast and easily controlled drying process is obtained, where the advantages of these two techniques are utilized, but the disadvantages are avoided.

The microwaves heat the material and increase the pressure of the water in each particle (granule, etc.), whereby the water seeks against the surface of the particles.

The preheated dry air, which is preferably blown in countercurrent through the drying zone, takes the moisture from the particles.

The infrasound, and then primarily the air movement generated by the infrasound, is used to improve the exchange of moisture and heat between the particles and the air flow. When the particles start to dry, the fluidization increases, which means that they do not pack up so easily. The fluidization is also positively affected by the infrasound.

Many different industrial products can be dried by means of the present invention. Examples of such products are thermoset composite pulp of melamine-formaldehyde resin, urea-formaldehyde resin or phenol-formaldehyde resin, polyvalent K? 5,465,355 alcohols such as pentaerythritol and trimethylolpropane, catalysts, fertilizers, salt and minerals.

The invention is explained in more detail in connection with the accompanying drawings. Fig. 1 then shows from the long side a cross section through a preferred embodiment of the device according to the invention. Fig. 2 shows a cross section of the same device as according to Fig. 1 seen from above.

The device comprises a drying tunnel 1 with a drying zone 2. A preferably continuously driven conveyor belt or the like. 3 runs through the drying zone 2. The direction of transport on the belt 3 is indicated by an arrow in the figures. Moist or wet material is fed by means of the belt 3 into the drying tunnel 2 and taken out in the dry state when it has passed the drying tunnel 1. A free-standing unit 4 where microwaves are generated by means of a number of magnetrons (not shown) is connected to the drying zone 2 via waveguides not shown. The microwaves are introduced into the drying zone 2 via these waveguides and distributed evenly over the wet or moist material on the conveyor belt 3.

Two resonant tubes 6, 7 are connected to the drying zone 2 for introducing infrasound from an exciter 1a. the sound wave input from the resonant tube 6 opens at one end of the drying zone 2, while the sound wave input from the other resonant tube 7 opens at the other end of the drying zone 2.

The sound waves from the two resonant tubes 6, 7 will therefore meet in the middle of the drying zone 2 and there take each other out.

Hot, dry air is introduced into the drying zone via an inlet 8. Exiting moist air is taken out through an outlet 9. The air thus passes in countercurrent to the material to be dried. This gives the best drying effect in a known manner. Of course, the air can be fed in another way, for example in co-current with the material to be dried.

The device suitably comprises microwave traps 11, 12 at 465 335 I e. Inlet for infrasound and at the connection for inlet and outlet air. These traps prevent microwaves from leaking.

Fig. 1 shows that the drying tunnel 1 is placed above the separate unit 4 with the magnetrons. The drying tunnel is supported by a number of legs (not shown).

The invention is not limited to the embodiment shown, as this can be modified in various ways within the scope of the invention.

Claims (9)

7 465 sssf- PATENT REQUIREMENTS 1. A method for drying non-metallic materials, characterized in that the material is in a moist or wet state, preferably continuously via a conveyor belt or the like. is fed into a drying zone on a drying tunnel, that the drying zone is connected via waveguides to a stand-alone unit where microwaves are generated, that the microwaves are introduced into the drying zone through these waveguides, the microwaves being distributed evenly over the moist or wet material, that infrasound is introduced into the drying zone one or two resonant tubes and that hot, dry air is fed continuously into the drying zone, preferably in countercurrent to the direction of transport of the moist or wet material. 2. A method according to claim 1, characterized in that the supplied hot air has a temperature of about 50 - 200 ° C. 3. A method according to any one of claims 1 or 2, characterized in that the material to be dried is fed into the drying tunnel in the form of a mass, lumps, granules or particles. 4. A method according to any one of claims 1-3, characterized in that the conveyor belt has a speed of about 0.01 - 2 m / min, preferably about 0.1 - 1.0 m / min. 5. A method according to any one of claims 1-4, characterized in that the frequency of the infrasound used is between 0 and 20 Hz. Method according to one of Claims 1 to 5, characterized in that the stand-alone unit also houses a frequency converter and a power supply. 465 335 8 Device for drying wet or moist non-metallic material, characterized in that it comprises a drying tunnel (1) with a drying zone (2) through which a preferably continuously driven conveyor belt or the like (3) runs, on which belt (3) the wet or moist material is fed into the drying tunnel (1), a stand-alone unit (4), where microwaves are generated by means of a suitable number of magnetrons, which unit (4) is connected to the drying zone (2) via waveguides, the microwaves are intended to be introduced into the drying zone (2) through these waveguides and are evenly distributed over the moist or wet material on the belt (3), one or two resonant tubes (6, 7) connected to the drying zone (2) for introducing infrasound therein, inlet (8) for hot, dry air to the drying zone (2) and outlet (9) for exhaust air from the drying zone (2). Device according to Claim 7, characterized in that the independent unit (4) also contains a frequency converter and a power supply for the magnetrons. Device according to one of Claims 7 or 8, characterized in that two resonant tubes (6, 7) are included, the inlet for the sound waves from one resonant tube (6) opening at one end of the drying zone. (2), while the inlet of the sound waves from the second resonant tube (7) opens into the other end of the drying zone (2).