FI87809C - Process for separating plastic particles from suspensions, especially from suspensions of cellulose and paper fibers - Google Patents

Description

87809

Method for separating plastic particles from suspensions, in particular from cellulose and paper fiber suspensions For the separation of plastic particles from suspensions, in particular from suspensions of cellulose and paper fibers 5

The invention relates to a method for separating plastic particles from a suspension, e.g. a cellulose pulp or pulp suspension, in which the fibrous flocculant is broken down to remove the plastic particles.

10

In several prior art solutions, the removal of plastic from the cellulosic fibers has been based mainly on the density of the plastic, either in the liquid phase or in centrifugal processes.

Applicant's earlier patent application 885180 discloses a method and apparatus for separating plastic particles from solutions, which solution is based on the separation of plastic particles electrically. In this known solution, the plastic particles in the solution are electrically separated by placing an anode and a cathode in the solution and adjusting the potential of the anode and the cathode 2q so that the plastics are separated from the solution.

It is an object of the present invention to provide a method for separating plastics from suspensions, e.g. cellulose suspensions, so that e.g. the amount of plastics in the suspension can be analyzed and the necessary studies carried out, e.g. origin, quality, etc. of the plastic.

The method according to the invention is mainly characterized in that in method 2Q a) turbulent currents are generated in said suspension, in which the particles separated by the flows are separated from the rest of the mass as the fiber network breaks down, whereby the lighter particles are separated. b) subjecting the suspension obtained in step a) to such treatment,; · 35 that a difference in concentration is obtained which prevents the re-formation of the fibrous network and thus the binding of the plastic particles to it, and 2 87809 ^ c) directing the flow to the separation point where the plastic particles are separated from the suspension.

Other advantageous features of the invention are set out in claims 2-10.

It is essential in the method according to the invention that in the method according to the invention turbulence causes the fiber / web material to break due to shear forces. Turbulence can be achieved as described above with a liquid jet, it is also possible to use a rotating cylindrical rotor or by colliding two separate mass flows against each other. In addition, turbulence can be achieved by spraying the pulp suspension into the pulp suspension by means of pressure. In addition, it is possible to mix the mass 15 mechanically below the surface.

In the method according to the invention, it is also essential that the turbulence zone is low in height, whereby the plastic particles have a short distance to move to the surface of the suspension ingredient container. It is also preferred that a second turbulence zone is generated after the latter guide plate. The combined effect of turbulence and fluid flows * results in different consistency gradients in the suspension in the tank.

In this case, the plastic particles become detached from the fibrous / flocculant material and are unable to return to the fiber. In order to enhance the consistency gradients, it is also possible to add a substance of 0% consistency to the surface of the suspension mixture by spraying, for example, more liquid.

Instead of flow control plates, the flow can also be controlled, for example, by changing the shapes of the basin.

30

It is also possible to break the fibrous / flocculant to remove the plastic particles so as to cause a momentary constriction in the suspension flow.

In the method according to the invention, the separation of the plastic is based on the breaking of the fibrous material binding the plastic particles by means of turbulence and pressure jets 3 87809 1, whereby the particles are released and rise due to the consistency gradient formed on the surface. Plastics can be collected from the surface either electrically and / or mechanically.

When separating plastic from e.g. cellulose, the equipment implementing the method according to the invention has a favorable location in the sorting plant, e.g. after the second or third sorting due to the enrichment of the plastics in the discharge stream.

In the following, the method according to the invention will be described in detail with reference to the figures of the accompanying drawing, the presentation of which, however, is not intended to be narrowly limited in any way.

Figure 1 schematically shows an apparatus for carrying out the method 15 according to the invention, in which plastic particles which have risen to the surface are removed by overflow.

Fig. 2 schematically shows an apparatus for carrying out the method according to the invention, in which the plastics which have risen to the surface are removed; · 20 with a mechanical collector.

Figure 3 shows schematically an apparatus for carrying out the method according to the invention, in which the plastics which have risen to the surface are removed by an electrified collector.

25

Figure 4 shows schematically an apparatus for carrying out the method according to the invention, in which the plastics which have surfaced are removed both by a mechanical collector and by an overflow.

The principle of the invention is that the plastics to be separated from the suspension are lighter than the fibrous material in the suspension, in which case the plastics naturally tend to rise to the surface of the suspension. The rise of plastics to the surface under most conditions, e.g. laminar flow conditions with a solids content by weight of more than 0.2%, 35 is prevented by the fibrous and flocculant material. In order to release the plastics, the flocculant, i.e. the floc, must be decomposed. Once the flocs have been disintegrated, the plastics rise to the surface from where they can be collected.

According to Figure 1, the suspension L is introduced into the tank 12 via a supply pipe 15 5 and a supply valve 16. Once the suspension L has entered the tank 12, its flow F is guided by the guide plate 13 so that the direction of the fiber flow F is towards the surface layer S of the tank 12. In Fig. 1, the plastic particles are denoted P. Thereafter, the suspension L is guided by a liquid jet 23 along the liquid 12 10 by means of a second liquid jet 24, a baffle 14 and a third liquid jet 25 towards the overflow opening 19 of the container 12. The liquid jets 23,24,25 applied to the flow F cause shear stress and turbulence on the flocculant, releasing plastic particles P from the flocculant S.

15

From the overflow opening 19, the flow Fp containing the plastic particles P is led to the tank 30. The portion of the suspension Ft containing the fibrous and flocculant released from the plastic particles P is directed out of the tank through the outlet valve 18 and the outlet pipe 17.

20

In the embodiment shown in Figure 2, the device 102 consists of a tank 12 into which the suspension L is introduced via a supply pipe 15 and a supply valve 16. The suspension travels as a flow F under the control of the baffle plate 13 until it arrives at a jet of liquid 24, which jet of liquid causes the fiber-25 / flocculant to decompose through turbulence and shear stress. The plastic particles P and the suspension L released from the fibers and flocs are further passed as a flow F towards the liquid surface S of the container 12.

In the embodiment shown in Fig. 2, a wire collector 20 provided with transverse collecting buckets 21 is arranged in the substantial proximity of the liquid surface S of the container 12. The coils p are further flowed as a flow Fp into the outlet tank 30. A suspension flow F2 containing liquid, flakes and fibers is led out of the tank 12 through the outlet valve 18 and the outlet pipe 17.

In the embodiment shown in Figure 3, the device 103 for collecting the plastic particles P5 is based on electrical separation. The suspension L is introduced into the tank 12 via a supply valve 16 and a supply pipe 15 and the flow is controlled by a guide plate 13 and the fibrous / flocculant is decomposed by a liquid jet 24 and the flow F is further directed by a guide plate 14. Plastic particles P are collected by a wire collector 20.

The plastic particles P are collected based on the potential differences of the wire collector 20 and the electrodes in suspension are denoted by reference numerals 37 and 38. The reference electrode is denoted by reference numeral 36. Power is also supplied from the power supply 35 to the wire collector 20, which thus electrically charges its own electrode 40.

From the suspension L in the container 12, plastic particles P are collected so as to supply a voltage to the electrodes 37, 38 and 40 via a power supply 35, e.g. a direct current source. When there is a potential difference between the electrodes 37, 38 and 40, the particles P adhere to a suitable potential: 20 electrodes; preferably to the wire collector electrode 40. The reference electrode 36 monitors the potential of the other electrodes 37,38,40 and based on the measurement results of the reference electrode 36 the potentials of the electrodes 37,38 and 40 are controlled so that they remain suitable, i.e. such that the plastic particles P are directed as electrode 40 to a working wire-25 collector.

From the wire collector 20 acting as an electrode 40, the plastic particles P are removed as a flow Fp to the container 30. The rest of the suspension L, i.e. the liquid and fibrous material and the flakes, leave as a flow FL through the outlet valve 30 18 and the outlet pipe 17.

· The embodiment of the device 104 shown in Fig. 4 is a combination of the devices 101 and 102 shown in Figs. 1 and 2, so that the removal of plastic particles P takes place in two flows Fp1 and Fp2, so that the flow Fp1 is removed by the wire collector 20 exits directly as an overflow to tank 30.

The devices for carrying out the method according to the invention can be adapted to operate under pressure, in addition to the open pool-type constructions shown in the figure.

The devices described above can be connected in series and in parallel to implement the method according to the invention, so that any embodiment can be combined with any embodiment.

The invention has been described above with reference to a preferred embodiment thereof, but it is not intended to limit the invention in any way to this example, but many modifications and variations are possible within the scope of the inventive idea defined by the following claims.

15 20 25 30 35

Claims (10)

7 87809 Patent Offsets A method for separating plastic particles (P) from a suspension (L). e.g. P) separate, and b) directing the flow (F) to a separation point where the plastic particles (P) are separated from the suspension (L), characterized in that c) the suspension (L) obtained in step a) is treated in such a way as to provide a concentration difference re-formation and thus the binding of plastic particles (P) to it. A method according to claim 1, characterized in that • the plastic particles (P) are separated mechanically at the separation point. Method according to Claim 2, characterized in that the plastic particles (P) are guided on the surface (S) of the container (12) and in that the plastic particles (P) are separated into an overflow (19) of the container (12). Method according to Claim 2, characterized in that the plastic particles (P) are separated at the separation point by collecting the plastic particles (P) by means of collecting buckets (21) in a wire collector (20). Method according to Claim 1, characterized in that the plastic particles (P) are electrically separated at the separation point. 8 87809 Method according to Claim 5, characterized in that the plastic particles (P) are separated on an electrode (40) having a suitable potential in a direct current-source electrode system (35,36,37,38,40) arranged in the container (12). Method according to Claim 1, characterized in that the plastic particles (P) are separated mechanically and electrically at the separation point. Method according to one of the preceding claims, characterized in that in the method, the suspension containing plastic particles (P) is further processed at the separation point by diluting the suspension to strengthen the consistency gradient, whereby the fiber loss is minimized. Method according to one of the preceding claims, characterized in that the turbulence is caused by guide elements (13, 14), preferably by guide plates. Method according to one of the preceding claims, characterized in that the dilution and / or orientation of the suspension (L) is carried out by means of liquid jets (24,25,26). 9 87809