DE10132743A1 - Recovery of at least two different paper fractions, from pulped used paper for recycling, the fraction which is less well pulped is separated for further intensive pulping into the second fraction - Google Patents

Abstract

Recovery of at least two different paper fractions, from pulped used paper for recycling, the fraction which is less well pulped is separated for further intensive pulping into the second fraction. Sorting raw paper material into at least two different paper fractions, the raw material (R) is combined with water (W) in a pulper (1), and the two types give a different pulping action through their fiber bonding characteristics when wet. The pulp (S) is divided at a separation stage (2) into a widely pulped fraction (6) and a less pulped fraction (5). The less pulped fraction is passed through an intensive pulping stage (3), to give a pulped fraction (7). The two pulped fractions have different qualities.

Description

The invention relates to a method according to the preamble of claim 1.

As is known, raw materials are used in the production of paper, which are in in many cases composed of waste paper or at least part of waste paper contain. It is in the nature of things that such waste paper-containing raw materials do not consist of only one type of paper, but often of one Variety of different types of paper are mixed. Depending on which one This heterogeneity of the paper product can be produced from this raw material Raw material to a greater or lesser degree in terms of the quality of the product produced from it Paper.

The raw paper-containing raw material is usually used at the beginning of the treatment process mixed with water and transferred to a suspension in a known sequence from treatment steps to a suspension that is ultimately one Paper or board machine can be fed. There are already procedures with which it also succeeds at least partially, from a mixture of different Paper types produce fractions in which certain fibers are concentrated which are each attributable to a specific type of paper. One calls one such process fiber fractionation, since it essentially depends on the properties of the Single fibers is aligned. However, such fiber fractionation is very complex.

From DE 195 09 789 A a method for the treatment of waste paper is known in which uses a rotating drum in which the waste paper is used in a Solids content between 6 and 30% is dissolved. With this procedure they happen Easier to dissolve waste paper components due to their smaller size Sorting openings and are removed from the drum while the rejected Coarse fraction is subjected to a grinding treatment. It is suggested, to carry out the process in such a way that the two fractions thus formed at the Paper production can be used according to their different qualities. However, the process steps described in this publication cannot be used achieve adequate separation of the mixed raw materials in all cases.

The invention is based on the object of creating a method with which it succeeds in at least two from a raw material that contains several types of paper To produce fractions in which certain types of paper are significant are concentrated.

This object is achieved by the features mentioned in the characterizing part of claim 1 solved.

The new process creates even better opportunities than in the prior art known to achieve the stated goal. The raw material is namely through appropriate choice of the dissolving unit used with an increased Selectivity resolved. Such a higher resolution selectivity can e.g. B. achieve if the dissolving unit is selected and operated in such a way that it is lighter dissolvable components act as lubricants and thereby the production of higher Prevent forces. As one particularly suitable for carrying out the method Dissolving equipment is a dissolving drum with a fixed displacement insert to watch as it is known from DE 197 36 143 A. With this one Machining channel formed, in which easily dissolvable substances, if available, effectively and be brought into suspension quickly and as a lubricant for the heavier dissolvable substances can act. On the other hand, it would also be possible to use conventional ones To operate pulper in such a way that the forces generated therein are only easier for the dissolvable components lead to dissolution, which then when emptying the Dissolver sieve can pass through and the more difficult to dissolve components from the Pulper can be removed without having passed the sieve.

The different fractions generated when the process is carried out can be As already mentioned, with different types of paper or different layers Use the same sheet of paper or the same card stock. To the potential of In many cases, exhausting raw material to the full becomes a different one Stock preparation of the fractions makes sense. In general, it can be assumed that the more easily dissolvable components of the waste paper contain such fibers that can preferably be used for graphic paper types. This would be in the In most cases, the printing inks must be removed, i.e. a deinking process is required. The more difficult to dissolve components, on the other hand, preferably contain long, strong ones Fibers and are more suitable for packaging papers. You can by one High consistency dispersion can be optimized especially for this purpose.

The invention and its advantages are explained with reference to drawings. there demonstrate:

Fig. 1 process scheme;

Fig. 2 is a particularly suitable for the process of pulping drum in section;

FIG. 3 shows a plant scheme for processing mixed waste department store;

Fig. 4 is a system diagram for processing mixed waste paper / deinking.

The diagram shown in FIG. 1 shows the essential steps that have to be carried out when carrying out the method according to the invention. The raw material R is brought to dissolution 1 together with water W. This results in a substance S, as described in the claims, which is separated into a more highly resolved fraction 6 and a less strongly resolved fraction 5 by the subsequent separation 2 . The less strongly resolved fraction 5 then reaches the intensive resolution 3 , from which it emerges again as the resolved fraction 7 . This treatment resulted in the two fractions 6 and 7 , the material composition of which is significantly different. These two fractions can now advantageously be treated further in different stock preparation sections 8 and 9, depending on their material composition and with regard to the intended use. The individual process steps of these sections will be discussed in more detail. In the actual paper production 10 , these components can then be used optimally, ie in a substance-specific manner.

As already mentioned, a dissolving drum provided with a displacer can be regarded as a particularly suitable dissolving unit. Such a drum is shown schematically in Fig. 2, in section with an axial line of sight. One recognizes the rotating drum body 11 , the z. B. is provided with driver strips 13 on its inner contour and in the center of which the displacer 12 is located. This displacer 12 can, for. B. have the cross section of a semicircle or a shape similar to this. The processing channel 14 is formed between the bulbous side of the displacement body 12 and the inner contour of the drum body 11 . Such a processing channel in connection with the other processing zones of this device is suitable for increasing the resolution selectivity.

FIG. 3 shows one of the possibilities for integrating the method according to the invention into a system for stock preparation. The system is shown in a highly simplified manner and only shows the units essential for explaining the method. An aggregate can represent a part of the system, e.g. B. a multi-stage arrangement of several pressure sorters. Waste paper is to be used as raw material R for this system, which mainly consists of used packaging. It is commonly referred to as department store waste. Typical components are long pulp fibers of high strength and short pulp fibers of medium strength. It may be advisable to shred the waste paper in a shredder 35 , drawn in broken lines, before it is dissolved. It can be seen that an already described dissolving drum 15 with a displacer body 12 is used for the dissolution. The dissolved substance S which leaves this drum next arrives in a sorting drum 16 which carries out the separation 2 according to FIG. 1. The fraction 5 which is formed in this way and has less resolution is subjected to an intensive dissolution 3 in a high-consistency pulper 17 . This creates the dissolved fraction 7 . It can be assumed that this fraction contains a large proportion of relatively strong and unbleached long fibers, which have a good strength potential. After they have passed through a pre-sorting 18 , which removes the coarse dirt by wet sieving, they come to the cleaning stage 19 for removing heavy parts with the aid of hydrocyclones. A sorting stage 20 then follows, which advantageously contains slotted sieves. The fabric treated and cleaned in this way is already suitable for being driven into the inlay of cardboard and is therefore collected in an inlay fabric chest 25 . Another part of this substance is first brought to an increased substance density in a thickener 21 and then dispersed in a disperser 22 . The dispersion is advantageously carried out at elevated temperatures, which, for. B. by - not shown here - addition of water vapor can be achieved. The dispersed substance no longer contains any visibly disruptive impurities and, after grinding in a refiner 23 , can advantageously be used as a carrier for a multilayer cardboard. For this purpose, it is passed into the carrier bag 26 .

The fraction 6 obtained as a pass in the sorting drum 16 predominantly contains wood pulp fibers and waste paper fibers with low strength potential. It is also freed of heavy parts in a cleaning stage 27 and then passes through two sorting stages provided with sieves one after the other. The first sorting stage 28 is preferably to be selected as hole sorting and the subsequent sorting stage 29 as slot sorting. A flotation process 30 follows to remove the pressure particles generally present in this fraction. Their accept contains the major part of the paper fibers and is concentrated in a screw thickener 31 and then mixed with bleaching chemicals 32 in a bleaching mixer 33 . This material then passes into the bleaching tower 34 , where it is normally bleached after heating until an optically perfect substance is present. This is ideal for the cover fabric of a cardboard web and is therefore derived into the cover fabric chest 24 .

The system shown schematically in FIG. 4 is particularly suitable for processing waste paper and mixed deinking goods. The raw material R 'consists of a mixture of newspapers, magazines, brown paper and cardboard. In this example too, an opening drum 15 with a sorting drum 16 is used first. The fraction 5 , which is formed as an overflow and has less resolution, can be further broken down in a kneader 36 . In the subsequent further sorting drum 16 ', a considerable proportion of the impurities are separated out. The passage of this sorting drum 16 ', after a cleaning stage 19 , which serves to remove heavy parts with the aid of hydrocyclones, reaches the fractionation stage 37 . As a rule, an appropriately equipped pressure sorter can be used for this purpose, which then discharges the long fiber fraction LF as an overflow and short fiber fraction KF as a pass using a wet sieve. The long-fiber fraction LF, which contains predominantly kraft papers, can, after appropriate thickening, which is not shown here, be used or sold as long-fiber supply 26 'if it is not suitable for the paper types produced from the deinking raw material. However, the short fiber fraction KF from this strand can often be used for graphic papers, at least after appropriate bleaching, and therefore reaches the short fiber chest 25 '. In special cases, it is possible to introduce the short fiber fraction KF into the strand that is actually installed for fraction 6 with higher resolution (dashed arrow 38 ).

The more highly resolved fraction 6 obtained as a pass in the sorting drum 16 , in a manner similar to that already described in FIG. 3, passes through various preparation stages which improve the purity and whiteness of this paper stock. It can preferably be used for graphic papers. As shown here, two flotation processes 30 and 30 'connected in series are particularly advantageous. In the second flotation process 30 ', in particular those ink and contaminant particles are floated out which could only be detached from the paper fibers by the treatment in the disperser 22 . Then, as already described in connection with FIG. 3, bleaching is carried out. After dilution, the suspension passes into the white material chest 24 '.

It should also be noted that the device for dissolving, sorting and fractionating are only to be understood as well-suited examples here. As already mentioned, can here also in the first step instead of the opening drum z. B. Dissolver used become.

Claims (12)

1. A process for dividing a raw material (R, R ') consisting of several types of paper into at least two paper fractions, which contains the following process steps: a) dissolving ( 1 ) the raw material (R, R ') in water (W), the different types of paper being brought to a significantly different dissolution state in accordance with their different fiber binding forces when wet, b) separation ( 2 ) of the substance (S) thus dissolved into at least one further fraction ( 6 ) and at least one lower fraction ( 5 ), c) intensive dissolution ( 3 ) of at least one lower-resolution fraction ( 5 ) to form a dissolved fraction ( 7 ), d) separate use of at least two fractions ( 6 , 7 ) as raw material for different types of paper or different layers of paper. 2. The method according to claim 1, characterized in that the resolution ( 1 ) is carried out with a consistency of over 10%. 3. The method according to claim 1 or 2, characterized in that the dissolution ( 1 ) in a rotating dissolving drum ( 15 ) with a fixed displacer ( 12 ) is carried out, wherein between the displacer ( 12 ) and the inner wall of the dissolving drum ( 15 ) Processing channel ( 14 ) is formed. 4. The method according to claim 1 or 2, characterized in that the dissolution ( 1 ) is carried out in a pulper which contains a fixed container open at the top, and at least one stirring element which ensures the circulation of matter in the pulper. 5. The method according to claim 4, characterized in that the pulper contains a sieve through which the more highly resolved fraction ( 6 ) is drawn off, while the less highly resolved fraction ( 5 ) is rejected by the sieve. 6. The method according to any one of the preceding claims, characterized in that the intensive dissolution ( 3 ) is carried out in a rotating dissolving drum with a fixed displacer. 7. The method according to claim 1 to 5, characterized in that the intensive dissolution ( 3 ) is carried out with a consistency of at least 15% in a kneader ( 36 ). 8. The method according to any one of the preceding claims, characterized in that at least two fractions ( 6 , 7 ) are separated and processed differently in the subsequent stock preparation. 9. The method according to any one of the preceding claims, characterized in that during the separation ( 2 ) a lighter paper pulp is formed in the further-resolved fraction ( 6 ) and a darker paper pulp in the lower-resolved fraction ( 5 ). 10. The method according to any one of the preceding claims, characterized in that in the separation ( 2 ) a short fiber material in the further dissolved fraction ( 6 ) and a long fiber material in the lower-resolution fraction ( 5 ) is formed. 11. The method according to claim 9, characterized, that the lighter paper pulp can be used for cleaning, sorting, Deinking flotation and bleaching and used for light paper and that the darker pulp turns into packaging paper without bleaching or cardboard is processed. 12. The method according to claim 10, characterized, that part of the short fiber after cleaning and sorting for the Cardboard insert is used, the other part after additional bleaching for the Blanket and that the long fiber after cleaning, sorting and Dispersion is processed to the carrier.