CH658902A5 - PROCESS AND APPARATUS FOR DESICCATION OF A LIQUID OR PASTY MIXTURE. - Google Patents

Description

The invention relates to a method for drying a liquid or pasty mixture, mainly for the reduction of this mixture into powder or granules. The invention also relates to an apparatus for implementing this method.

Many industrial processes involve one or more drying stages, whether to obtain a finished product in the form of powder or granules, or to reduce certain polluting waste. In all cases, the quantities of water to be eliminated are the cause of very high energy consumption. The object of the invention is to create a drying process which can be applied both on an industrial scale due to its excellent energy efficiency and on a laboratory level or in small quantities production (pharmaceutical industry) mainly due to the high degree of efficiency it provides.

In this spirit, the invention therefore relates to a process for drying a liquid or pasty mixture, characterized in that it consists in simultaneously subjecting the mixture to the action of microwaves and to the action of centrifugation.

During an optimal implementation of the process defined above, the mixture is fragmented and distributed substantially regularly all around the emission means of said microwaves, so that these can act on the mixture with better efficiency during the centrifugation process which itself helps to separate the heaviest components from the mixture.

The invention also relates to a desiccation device for implementing the method which is characterized in that it comprises a tank mounted to rotate about an axis of symmetry and receiving the mixture, means for rotating this tank. and at least one microwave generator immersed in the tank.

According to one embodiment, the rotation shaft of the tank is hollow, to effectively house and protect the microwave generator (s).

According to another embodiment, the microwave generators are included in a glass tube placed centrally at the bottom of the tank in the extension of the rotation shaft of the latter.

The invention will be better understood in the light of the following description of a desiccation apparatus in accordance with the principle of the invention, given solely by way of example and made with reference to the appended drawing, in which:

- Figure 1 is a schematic elevational view in partial section of an apparatus according to the invention.

- Figure 2 is a section along II-II of Figure 1.

- Figure 3 is a schematic elevational view in partial section of an alternative embodiment of the apparatus shown in Figure 1.

- Figure 4 is a schematic side elevational view of a preferred installation of the apparatus of Figure 3 in a concentration and drying chain of a liquid mixture.

In FIG. 1, the apparatus mainly comprises a tank 11 rotatably mounted around a vertical axis of symmetry materialized by a hollow shaft 12, as well as three microwave generators 13, 14, 15 (commonly called “magnetrons”) immersed in the tank 11

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and more particularly housed inside the hollow shaft 12. The latter is held in a vertical position by means of bearings 16a and 16b of a frame 16.

The tank is, in the example shown, essentially constituted by two conical portions 17 and 18, coaxial, assembled by their respective largest bases. The lower conical portion 17 is very flared, so as to form a receptacle for the mixture to be treated. This is introduced by a lower conduit 19 opening into the conical portion 17 through an annular space 20 formed around the shaft 12. This annular space is defined by a fixed lower ferrule 21, into which the conduit 19 and a ferrule open. upper 22 secured to the tank and pierced with lateral orifices, the internal diameter of which is adjusted to the external diameter of the fixed shell. A radial wall 23 is welded internally to the shaft 12 and interposed externally between the two assembly flanges 17a and 18a of the conical portions 17 and 18. It is through it that the tank 11 is rotated. Large openings 24 formed in this wall in the vicinity of its outer edge allow the mixture to pass through the upper part of the device, under the effect of centrifugal force. An upper bearing 25 located at the upper part of the tank, defined with the sleeve 29, improves the rotational stability of the tank around the shaft 12.

A drive means forming an Archimedes screw 28 is arranged opposite the internal wall 27 of the tank 11 and mounted rotating around the same axis of symmetry as the latter, that is to say around the shaft 12, with a different speed of rotation. To do this, said means forming an Archimedes screw is linked to a sleeve 29 engaged on the shaft 12, projecting from the upper part of the tank, and on which is fixed a pulley 30 driven by a belt 31. Furthermore , the means for rotating the tank comprise another pulley 32 fixed to the shaft 12 above the sleeve 29 and driven by another belt 33. The belts 31 and 33, parallel, are coupled to the same motor, not shown. The difference in rotational speed between the tank and the drive means forming an Archimedes screw can be fixed by construction by providing a slight difference in diameter between the pulleys 30 and 32. This drive means forming Archimedes screw has the general shape of a cage, the longitudinal uprights 35 of which are assembled with fins 36 projecting in the direction of the internal wall 27 of the tank and defining a helical path capable of causing the device to slowly move towards the top densest parts of the mixture, being processed. Upper crosspieces 37a rigidly connect the uprights 35 to the sleeve 29 and lower crosspieces 37b rigidly connect these same uprights to a lower bearing 37c mounted rotating on the shaft 12. A means for discharging the dry product is arranged at the upper part of tank. It comprises an annular receptacle 38 surrounding the upper part of the tank 11 and a discharge duct 39 extending said receptacle. The tank has several lateral openings 40, located in the vicinity of the upper part of the drive means forming an Archimedes screw 28 and opening into the receptacle 38. This drive means 28 cooperates with a conical wall 27, it therefore naturally has a similar general form. In other words, the uprights 35 are arranged at regular intervals on a fictitious frustoconical envelope coaxial with the hollow shaft 12. The latter is divided into two parts: the lower part 42 contains the microwave generators aligned axially in this space of said shaft and the upper part 43 (isolated from the part 42 by a solid portion 44) extends outside the tank, above the frame 16, and has internal lateral openings 45 opening into the tank so as to constitute a means of evacuating the gases and / or vapor produced during the treatment of the mixture. The tubular part 43 therefore opens axially into a discharge sheath 46 provided with a suction device 47. The generators 13, 14 and 15 are electrically supplied by wires 48 penetrating through the lower axial end of the shaft 12. Des openings 49 are made laterally in the shaft 12 opposite each generator and these openings are extended radially by hollow guides open opposite the internal wall 27 and drive means forming Archimedes screws 28.

The operation of the device is as follows: the tank 11 is rotated and the microwave generators are electrically supplied while the mixture to be treated is gradually introduced into the receptacle formed by the conical part 17 of the tank. Under the effect of centrifugal force, the mixture progressively travels towards the base of the drive means 28. Under the effect of the Archimedes screw, this mixture progresses slowly towards the top of the tank, being distributed in a relatively thin layer all around the microwave generators 13, 14 and 15. The heat maintained by the generators therefore acts with maximum efficiency on a mixture which is constantly fractionated during its progression, while remaining maintained in a thin layer in the vicinity of the internal wall 27. The vapor released is sucked through the orifices 45 and discharged by the sheath 46 and the suction means 47. The dried product falls into the receptacle 38 and is discharged through the conduit 39.

FIG. 3 represents an alternative embodiment of the apparatus of FIG. 1 according to which the action of the microwaves can be exerted substantially over the entire region of the internal surface of the tank, so that the combined action of the centrifugation and microwave provides optimal drying.

To this end, the respective hollow guides arranged opposite the microwave generators have a plurality of guide pipes of different inclinations separated by tori of triangular section.

With reference to this figure, the parts of the apparatus identical to those of the apparatus of FIG. 1 are designated by the same reference numbers, increased by 100, which makes it possible to identify them easily.

As can be seen in this FIG. 3, each hollow guide 150 has an axially flared shape and comprises several guide conduits 150a, 150b and 150c separated by tori of triangular section 151. There are also between two axially adjacent guides spacers 152 peripherals to shaft 112, for example of hexagonal section. Dispersion blades 153, 154 are arranged respectively above and below the guides 150, near the transmitting antenna.

Thus is defined, between the wall 127 of the outer envelope 111, the spacers 152 and the adjacent walls of the waveguides 150, a resonance box 155. The surfaces delimiting this enclosure 155 will advantageously be made of a material reflecting the waves emitted by the generators 113 and 114. These waves emitted by the antennas will thus be distributed at the outlet of the guide conduits 150a, 150b and 150c in multiple paths reflected practically without attenuation on the wall 127, the walls of the spacers 152 and the external walls of the guides 150, in order to sweep the mixture subjected to centrifugation on the internal periphery of the tank in a much more regular and extensive manner and consequently effective.

It will be noted that the tori of triangular section 151 serve to separate the guide conduits to give the emitted waves well-defined inclined orientations relative to the wall 127 that they will strike, as well as to reflect again by their exterior side substantially. parallel to the wall 127 the waves reflected by the latter, in order to participate in the dispersion of the waves in the treated mixture mentioned above.

It will also be noted that all the elements intended to reflect the microwaves, in particular the guides 150, the spacers 152 and the internal wall 127 of the tank, will be made of a material reflecting the microwaves, such as for example the 'stainless steel.

In the example shown, the microwave or magnetron generators 113, 114 are fixed in a glass tube 156 housed inside the hollow shaft 112. They could also be rotatably mounted, their power then being supplied by a rotary contact assembly (not shown).

In order that the waves emitted by the microwave generators are not unnecessarily dispersed outside, grids 157 are provided for blocking said waves inside the appliance. They

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are arranged transversely inside the device. They are arranged transversely inside the glass tube 156 and outside 143 of the hollow shaft 112.

FIG. 4 illustrates a possibility of inserting the desiccation apparatus of the invention in an installation for concentrating and drying sludge, liquid mixtures, etc. The raw products are brought through a conduit 202 into a storage tank or buffer 203, from where they are evacuated from the bottom, to a thickening separation unit with combined action of centrifugation and ultrasound 205, by the intermediate of a pump 204. The waters of constitution separated in this unit are evacuated by a conduit 207, to be optionally recycled. The outlet of thick products from the unit 205 feeds, via a pump 206, a drying unit 208 according to the present invention. The dried products leave via the inclined conduit 209 which leads to a belt conveyor 210. The vapors are evacuated by another conduit 211. It will be noted that the conveyor

strip 210 may be replaced by an Archimedes screw conveyor, depending on the state of the dried products.

The apparatus which has just been described can be used advantageously in numerous applications. In the food industry, firstly, it can be used in slaughterhouses for the recovery of blood, for the preparation of a powder constituting a raw material particularly rich in proteins. The same device can be used in dairies, for the treatment of dairy serum (better known as "whey"). In the treatment plants 10, the sludge treatment by the apparatus will provide a raw material for the production of biological fertilizers and / or biogas. The drying and reduction of waste from the industrial processing of beets can be envisaged with an apparatus of this type. Finally, a device according to the invention, of lower ca-15 capacity, will meet a large number of needs in the pharmaceutical industry and laboratories.

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3 sheets of drawings

Claims (17)

658,902 1. A method of drying a liquid or pasty mixture, characterized in that it consists in simultaneously subjecting said mixture to the action of microwaves and to the action of centrifugation. 2. Method according to claim 1, characterized in that it consists in fragmenting and distributing the mixture all around the microwave emission means. 2 3. Apparatus for implementing the method according to claim 1, characterized in that it comprises a tank (11) rotatably mounted around an axis of symmetry (12) and receiving said mixture, means for rotating (32, 33, 23) of this tank and at least one microwave generator (13, 14, 15) immersed in the tank. 4. Apparatus according to claim 3, characterized in that the tank (11) is rotatably mounted around a hollow shaft (12) enclosing the microwave generator (13, 14,15). 5. Apparatus according to claim 3 or 4, characterized in that it comprises a drive means forming an Archimedes screw (28) arranged along an internal wall (27) of the tank and mounted rotating around the same axis of symmetry, with a different speed of rotation, and a means for discharging the product to be dried (38, 39), a receptacle (38) of which communicates with an outlet (40) provided at the upper part of said tank. 6. Apparatus according to claim 5, characterized in that the drive means has the form of a cage provided with fins (36) projecting in the direction of the internal wall (27) and forming a helical path. 7. Apparatus according to one of claims 5 or 6, characterized in that the drive means (28) is integral with a sleeve (29) rotatably mounted around said shaft (12), in that this sleeve is projection outside the tank (11) and a pulley (30) is integral with the sleeve. 8. Apparatus according to one of claims 4 to 7, characterized in that the hollow shaft has a lower part (42) containing the microwave generator and an upper part (43) extending outside the tank and having side openings (45) opening inside thereof, to form a means for discharging the gases and / or steam produced during the treatment of the mixture. 9. Apparatus according to one of claims 4 to 8, characterized in that openings (49) are formed laterally in the hollow shaft (12) facing the or each generator (13, 14, 15) and are extended radially by respective hollow guides (50) open opposite the internal wall (27). 10. Apparatus according to one of claims 5 to 9, characterized in that the tank has two conical portions (17,18) assembled by their respective larger bases, the drive means being arranged opposite the internal wall of the upper conical portion, while the lower conical portion constitutes a receptacle for the mixture. 11. Apparatus according to claim 9, characterized in that the respective hollow guides (150) for guiding the waves generated by the microwave generators have a plurality of guide conduits (150a, 150b, 150c) of different inclinations. separated by tori (151) of triangular section. 12. Apparatus according to claim 11, characterized in that it further comprises between two waveguides (150) axially adjacent spacers (152) peripheral to the shaft (112) forming with the adjacent walls of the guides and the inner wall (127) of the outer shell of the tank (111) a resonance chamber (155) for the microwaves. 13. Apparatus according to claim 12, characterized in that the spacers (152), the guides (150) and the internal wall (127) forming the resonance box (155) are made of a material reflecting microwaves. 14. Apparatus according to claim 13, characterized in that the microwave reflecting material is stainless steel. 15. Apparatus according to one of claims 11 to 14, characterized in that the microwave generators (113,114) are fixed in a glass tube (156) inserted inside the hollow shaft (112). 16. Apparatus according to claim 15, characterized in that a wave blocking grid (157) is disposed inside the glass tube (156), transverse thereto, an identical grid being disposed at the part opposite (143) of the hollow shaft (112). 17. Apparatus according to one of claims 11 to 16, characterized in that it further comprises dispersion blades (153, 154) arranged axially adjacent to the guides (150).