NL8005614A - METHOD AND APPARATUS FOR DUST-FREEING PARTICULATES - Google Patents

Description

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Method and device for de-dusting particles.

The present invention relates to a method for. dusting of particles and aims to effect a selective separation between the particles and the much finer dust which has adhered to these particles, comprising creating at least one jet of particulate-laden particles in a fluidized bed of these particles, which have been formed in a fluidization chamber, and directing this jet against an obstacle at a sufficiently high speed, so that the fine dust detaches from the particles under the influence of the collision, thereby fluidizing the particles brought by a rising stream of fluidizing and separating gases.

The object of the present invention is primarily. the useful effect of the separation, which with known.

15 methods and devices are achieved, and in particular achieve the most complete separation possible, which has good selectivity in difficult applications, namely when the very fine particles adhere firmly to the larger particles.

To achieve this aim, the method of the above-described general type according to the invention is characterized in that, by vibrating the said chamber, the particles of the fluidized bed are additionally subjected to sustained vibrations, which rising current is only the fine dust with a grain size which is lower than a predetermined threshold value, upwards, in this way bringing the said selective separation between the fine dust and the larger dust-free particles thus established to 80 05 6 1 4 2.

The above-mentioned vibrations, in conjunction with the collision of the beam or beams of the particles on a solid obstacle or on other beams, contribute to causing repeated collisions between the particles and on the walls of space, which they (fluidization chamber) and it has been found that this greatly contributes to overcoming the adhesive forces between the very fine particles and the larger particles to which they adhere.

Moreover, thanks to these vibrations, a faster renewal of the particles of the fluidized bed is achieved in the radius or jets of the particles which are created in the bed, which increases the effectiveness of these jets and also makes the particles free of dust. walk. Because the particles are subjected to much more complex movements than the movements they would undergo in the single ascending flow of fluidizing gas, the particles are also thrown into the jets more quickly. In other words, the induction created by the rays of the particles is better used when the particles are subjected to vibrations.

Thus, thanks to the invention, excellent cooperation can be achieved between the phenomena which occur on the one hand and the collisions resulting from the creation of jets in the fluidized bed and on their collision with an obstacle, and on the other hand the phenomena which occur as a result of the vibrating the particles.

This leads to a very efficient separation in the fluidized bed and opens the possibility of increasing the amounts of the material to be treated per unit time.

Of course, the fine particles entrained by the ascending gas stream can be applied by means of any known means, for example, by means of a filter housing with pocket flashers, of the fluidizing gas, for example by means of 80 05 6 1 4 separated before being discharged outside.

The larger particles can be discharged from the fluidized bed in known manner by overflow and simply by gravity.

The jets of the particles in the fluidized bed can be created by simply injecting jets of compressed air or another gas into the fluidized bed, which face each other.

The present invention also relates to a device for applying the above-described method, namely also a device for dust-freeing of particles, which device essentially consists of a fluidization chamber, which is provided with a conduit for supplying the dust-freeable particles, a discharge pipe for the dust-free particles, which is connected to the fluidization chamber on the side opposite the supply pipe, and a gas-flowable wall, which forms a bottom and which forms an upper part of the chamber, which forms a fluidization space 2.0, which is additionally bounded by side walls, separates from a lower part, which forms a blow box and which can be connected to a conduit for the supply of compressed gas for the fluidization and the separation, in addition, the Input of a conduit is connected to the upper part of said space for the discharge upwards of fine particles, which v an. "the larger particles in the fluidized bed are separated1 and are entrained by the upward flow of the fluidizing gas, the outlet of the said line being optionally connected to a separator in the form of a filler or similar device in addition, while means are arranged in the side walls of the fluxization space to generate beams of particles moving towards each other; are targeted.

According to the invention, such a device 35 is characterized in that the device is provided with means for vibrating the particles in said fluidization space, which means can subject said flow-through wall and, if appropriate, said side walls of the fluidization space. to maintained vibrations, while in addition means are provided for controlling the velocity of the ascending stream of fluidizing gas.

Preferably said means for vibrating the particles and the fluidization chamber consist of an elastic support of the fluidization chamber and, connected thereto, of at least one variable speed rotatable shaft, which carries at least one eccentric mass, the eccentricity of which also is adjustable.

Thus, one can easily control the frequency and amplitude of the vibrations. The stiffness of the elastic support and the mentioned frequency are in principle chosen such that a maximum amplitude is achieved.

Even with an elastic support, which supports the gun and thus works in the vertical direction, this vibration system produces horizontal vibrations, 20 'although with a smaller amplitude than the vertical vibrations, which contributes to increasing the number of collisions between the particles. .

Said vibrating device can be provided with at least two rotatable parallel axes, each carrying at least one eccentric mass, and with means for controlling the angular displacement between these masses, which provides an additional control actuator.

The invention will be explained in more detail with reference to the drawing with a sample example.

FIG. 1 is a schematic representation in axial section of a device according to the invention for the application of the method according to the invention, and FIG. 2 is a cross section along the line II-II in FIG. 1.

The device shown in the drawing is 8005614

He - * 5, for example, is intended for dusting aluminum particles, whose grain size (particles and fine dust) varies from 1 to 100 μ, in order to separate all particles that are smaller than 30 μ.

The device is provided with a fluidization chamber 1, provided with a pipe 2 for the supply of the dust-freeable particles, which supply pipe is fed from a funnel 3, and with a discharge pipe 4 for the dust-free particles, i.e. the larger particles, which discharge pipe 4 is connected to the fluidization chamber 1 on the side opposite the supply pipe 2. The chamber 1 is bounded by a permeable wall, which forms a bottom 6, which bottom is the bottom wall of what is an upper part above of the chamber and which forms a fluidization space 7, which is furthermore bounded by side walls 8a and 8b. Beneath this permeable wall 6 is a lower part, which forms a blow box 9 and which can be connected to a pipe 10 for supplying compressed air for the fluidization and separation, which supply pipe itself can be fed by a fan with adjustable flow rate.

A pipe 11 is connected to the upper part of the device, which is connected to the upper part of the fluidization space 7. The other end of this pipe U is connected to a dust collector 12, which is, for example, 25. provided with filter bags, the filtered air leaving the device via the outlet 13 and the separated particles from in a funnel 14, which is provided with a discharge valve 15.

According to the invention, means are also provided for vibrating the particles in the fluidization space 7. These means are shown very schematically in the form of vibrating devices 16. These vibrating devices preferably consist of shafts which are rotatably mounted in bearings of the chassis. 17 of the device, which shafts can be driven by electric motors and carry one or more eccentric masses.

80 05 6 1 4 6

As noted above, the angular displacement of the eccentric masses on the different axes can be controlled to create vibrations with multiple compound movements.

In any case, the vibrators used are arranged to subject the chassis 17, the fluidization space 7, the permeable wall 6, the side walls 8a and 8b, and the blower 9 to vibrations, the main component of which is oriented vertically. For this purpose, an elastic system, which consists, for example, of coil springs 18, is arranged between supports 19 of the chassis and supports 20, which are mounted on the floor. Such a system allows not only a vibration in the vertical direction, but also the occurrence of horizontal vibration components.

Finally, the device is provided with two blowing nozzles 21 (fig. 21), with which compressed air can be supplied and which are mounted along the same line and opposite each other in the two opposite side walls 8a and 8b of the fluid ring space 7.

The purpose of these blowing nozzles is to generate, in the fluidization bed of dust-free particles, jets of those particles which are directed against each other, to subject the particles to collisions in order to loosen the finer dust particles adhering thereto. . For example, four pairs of opposed nozzles 21 may be provided, as shown in FIG.

These shocks or collisions to which the dust-freeable particles are subjected are very effectively combined with the vibrating movements to which the dust-freeable particles are also subjected, by causing the space 7 to vibrate and thus an excellent efficiency can be achieved when dusting the particles.

For example, with the abovementioned grain size of aluminum particles, one can easily separate all dust particles with dimensions smaller than 30 μ. It is noted that this result cannot be achieved with known devices which are equipped with a vibrating screen, in which the vibrating screen is moreover clogged very quickly.

Subsequently, the fine particles 22, which have been detached from the larger particles, are entrained by the fluidization air stream in the top-mounted pipe U and these fine particles are separated from the air, in the dust collector 12. The larger particles remain or fall back into the fluidized bed and, by natural flow 10, cross the fluid expansion space 7 from the supply line 2 into the discharge line 4, from which coarse, dust-free particles '23' are subsequently discharged.

8005614

Claims (6)

A method of de-dusting particles to achieve a selective separation between the particles and much finer dust adhering to those particles, comprising creating at least one jet of particles 5 loaded with fine dust in a fluidized bed of these particles, which is formed in a clarification chamber, and directing this beam against an obstacle at a sufficiently high speed so that under the impact of the collision the fine dust separates from the particles, thereby fluidizing the Particulate matter occurs with an ascending stream of fluidizing and separating gas, characterized in that, by vibrating the said chamber, the particles of the fluidized bed are additionally subjected to sustained vibrations, the ascending current only containing the fine dust with a grain size which is below a predetermined threshold value is carried upwards so that in this way the said selecti eve separation between the fine dust and the larger particles thus rendered dust-free is established. Apparatus for applying the method according to claim 1, which device essentially comprises a clarification chamber, which is provided with a supply pipe for dust-free particles, of a discharge pipe for the dust-free particle. made particles, which is connected to the fluidization chamber on the side opposite the feed line, and from a permeable wall which forms a bottom and separates an upper part of the chamber, which forms a fluidization space which is additionally bounded by side walls, from a lower one part which forms a blow box and which can be connected to a pipe for the supply of compressed fluidization and separation gas, the inlet of a pipe being additionally connected to the upper part of said space for the discharge upwards of fine particles separated from the larger particles in the fluidized bed and entrained by the ascending stream of fluidizing 8005614 gas, the outlet of this conduit being connected to a separator fitted with a filter or similar means, while moreover, means are arranged in the side walls of the fluidization space for generating rays of the particles directed towards each other, characterized in that the device is provided with means for vibrating particles in said fluidization space, which means can subject said permeable wall and possibly the side walls of the fluidization space 10 to maintained vibrations. . 3. Device according to claim 2, characterized in that said vibrating means consist of an elastic support of the fluidization chamber and, connected thereto, of at least one shaft rotatable at adjustable speed, which carries at least one eccentric mass , the eccentricity of which is also adjustable. Installation according to claim 3, characterized in that said means consist of at least two parallel rotatable shafts, each carrying at least one eccentric mass and of means for controlling the angular displacement between these masses. 5. Method for dusting particles, substantially as described in the description. 6. Device for de-dusting particles, substantially as described in the description and / or shown in the drawing. 3 0 05 2 1 4