CH681993A5 - - Google Patents

Description

       

  
 



  The invention relates to a method for processing waste paper according to the preamble of claim 1. Such a method is known from DE-PS 2 311 674. The idea here is that only low resolution in the pulp solver and extensive resolution in the bleaching tower during storage of Save 2 to 3 hours of energy. However, an additional apparatus in the form of a thickener is required in order to bring the suspension to a consistency of about 25%, which is usually used in the bleaching tower. It is therefore the case that the relatively low consistency in the pulper and the relatively high consistency in the bleaching tower. However, this has the disadvantage that the pulper has a relatively low processing capacity compared to the bleaching tower. Another disadvantage is the additional thickening device, which causes high costs.

  Also, with the consistency of about 5 to 6% specified there, dissolving in the pulper is no longer economically viable and also not technologically favorable. It must be borne in mind that soiling that is usually contained in waste paper should not be severely broken up, but should be removed early.



  The object of the invention is to create a cost-effective and technologically more favorable dissolving system in which there is a favorable energy consumption.



  This object is achieved according to the invention by the features of the characterizing part of patent claim 1. Furthermore, a low-cost dissolving device (pulper) is specified.



  It is known that today in pulp dissolvers with a relatively high consistency of 12 to 17%, a specific workload of usually 25 Kwh / t and more (per ton of waste paper) is used up to a low residual speck content, using a dissolving rotor which essentially goes upwards at least in its lower part has continuously decreasing outside diameters or conically tapering conveying coils as circulating members on the outer circumference. As a result, the waste paper is mainly divided gently by moderate shear forces and fiber friction, i.e. the impurities are reduced as little as possible under the influence of the dissolving rotor. According to the invention, practically without additional deflashing on the opening rotor or an opening wheel of the same, e.g. by sweeping rotating blades of the same on a sieve.

  As a result, the waste paper is broken down even more gently, and the dirt can be removed from the material dissolver gradually in a particularly advantageous manner by means of a circulation circuit. After the shredded pieces of paper have been broken up, the accepted material is screened out in the circulation apparatus and returned to the pulper.



  The specific dissolving work in the pulper is kept low and amounts to a maximum of 10 to 15 Kwh / t waste paper, depending on the strength or wet strength of the same; in practice, it is only dissolved until it is pumpable, with a speck content between 30% and 40%.



  A draw-off chamber with a sieve separating it from the rest of the pulper, to which the arms or blades of another rotor-like rotor can be moved parallel and along which it is kept free, is not in the immediate vicinity of the pulley, but on a side wall of the pulper intended.



  The invention is explained below using an exemplary embodiment shown in the figures of the drawing. It poses
 
   1 shows in principle a process sequence of the method according to the invention, the apparatuses being shown partly in section, and
   Fig. 2 shows a horizontal section through a pulper according to Fig. 1.
 



  The waste paper is fed in bale form 15 or loosely via a conveyor 14 to the pulper 1, where it is broken up into scraps by the action of the conveyor screws 2 of the conveyor rotor 2, which are continuously or conically constricting upwards at their outer circumference, at least in their lower part. The consistency in the pulper is between 8 and 12, preferably between 10 and 12%. The opening rotor has a vertical axis of rotation and is arranged on the bottom of the pulper and driven by a motor 31 via its drive shaft 30. A sieve 7 with an essentially uniform perforation of 18 to 25 mm in diameter is arranged laterally in the container wall of the pulper, which separates an accept material space 8 from the remaining container contents.

  In front of the sieve, an impeller 5 rotates, which serves to keep the sieve free and for a certain mixing of the substance dissolver content in this area by means of dilution water supplied through line 13. The accepted material is fed from the room 8 via the nozzle 9 in line 2 6 to the tower-like storage container 22. At the pulper there is a discharge opening 6, to which a line 26 connects and which leads to a vortex flow apparatus 10 which, by means of an impeller 11 rotating coaxially with its inlet opening, transfers the suspension removed from the pulper to a proportion of 6 to 20% of its throughput Line 16 of the sorting device in the form of a perforated drum 17 feeds. This drum is mounted, for example, on its shaft 18 in bearings 19. The dirt that cannot be recycled is thrown off through the opening on the left side.

  These openings are located between the radial spokes 20, by means of which the drum is attached to its shaft 18. It would of course also be possible to store the sorting drum 17 on its circumference on rollers.



  The necessary dilution water is added to the circulation amount after the pulper, e.g. fed via line 34.



  Heavy parts are removed from the pulper as usual via a heavy dirt lock 27.



  From Fig. 2 it follows that the accepted material space 8 or the screen 7 are arranged on a more or less one-sided bulge 28 of the pulper. As a result, the suspension does not flow tangentially past the impeller 5, but is fed to it and the sieve 7 at an acute angle. This improves the discharge of the accepted material.



   A consistency of approximately 5 to 7% is achieved in the accept material space 8, with which the waste paper suspension then reaches the tower-like storage container 22. There it remains for further (chemical) dissolution about 1 to 2 at most 2 to 3 hours and is then fed to the further treatment process with further dilution through line 25 and with the help of propeller 23 via nozzle 24, possibly after further dilution to about 4% . In the following, of course, further sorting stages are provided, with some of the fiber bundles of the waste paper that have not yet been shredded also being partially shredded.

  The waste paper suspension, which is preferably self-priming, is pumped further from the accept material space 8 of the material solver to the storage container 22, which is preferably self-priming in order to also carry out pumping with unavoidable large amounts of trapped air. It has been shown that this is perfectly possible.



  Compared to systems that are widely used today, with dissolving consistencies in the pulper of 12 to 17%, a strong thinning combined with subsequent thickening and thus also a thickening in this "front" process section is avoided.



  It can also be seen from FIG. 2 that the angle a between the radial of the pulper and the screen surface drawn through the intersection of the central axis of the impeller 5 and the screen 7 is approximately an angle of 120 °. This angle can preferably be between 115 and 130 °. The angle of the side wall of the pulper in this upstream region with the radial mentioned can then be between 20 ° and 50 °, i.e. it can be up to 5 degrees lower and up to 10 degrees larger than the angle between the shaft of the impeller and the radial.



  It should be noted, however, that the opening rotor 2 does not rotate above a screen and closely adjacent to it as usual, so that it does not immediately exert any significant tearing and deflaking action and thus cuts the waste paper in a particularly gentle manner. The intermittent circulation of the fiber suspension by means of vortex flow apparatus 10 via line 16 and sorting device 17 is known from US Pat. No. 4,634,059.



   The vortex flow apparatus can be a vortex pump (see US-A 4,370,172 or Paper, Carton et Cellulose 1986, pages 57-5) or an apparatus according to US-A 4,634,059, the ratio of (Axial) length to the diameter of the housing interior can be between 0.8 and 1.5. The apparatus (pump) is operated intermittently with between 10 and 120 cycles per hour, the high values being more applicable to the vortex pump.



  The dissolving chemicals, e.g. 1.5-4% NaOH or Na2SO3 or a part of it can preferably be added to the pulper here, as well as any chemicals required for a subsequent flotation.



  The dissolution in the pulp dissolver results in a relatively high proportion of remaining scraps of paper, which, however, can largely be screened through the large screen perforation.


    

Claims (13)

      1.Process for the treatment of waste paper with the characteristics: a moderate shredding of the waste paper in a pulper takes place with a consistency between 8 and 12% with a workload of at most 15 Kwh / t largely to shreds, followed by screening of the shredded scrap of paper by perforating the screen between 18 and 25 mm in diameter,  Pumping out the screened waste paper scraps suspension by means of a pump and conveying the suspension into a tower-like storage container (22) and storing it there with the pumping consistency between 5 and 7% for the purpose of further splitting the scraps of waste paper and specks by the action of chemicals as well as guiding the waste paper suspension in a cycle from and to the pulper (1) in an amount of 6 to 20% of the material dissolver throughput with the fragmentation of the waste paper that takes place in the circuit by means of an intermittently working vortex flow apparatus (10), from which the circulated fiber quantity is subjected to a further screening in order to dissolve waste paper components in the material dissolver (1) attributed. 2nd A method according to claim 1, characterized in that the dissolution in the pulper takes place under the action of moderate shear forces generated by a rotor with helical blading. 3. The method according to claim 1 or 2, characterized in that the separation of the waste paper in the pulper with a consistency between 10 and 12% and storage in the tower-like container for 1 to 2 hours. 4. The method according to any one of claims 1 to 3, characterized in that heavy parts are removed separately from the pulper (1) via a heavy part lock (29). 5. The method according to any one of claims 1 to 4, characterized in that the screening takes place in a region of the pulper which is remote from the opening rotor. 6. Method according to one of claims 1 to 5, characterized in that the dissolution in the pulper takes place essentially straight up to the pumpability of the waste paper suspension. 7. The method according to any one of claims 1 to 6, characterized in that the dissolution in the pulper in a time up to a maximum of 6 min. he follows. 8. The method according to any one of claims 1 to 7, characterized in that the chemical dissolution in the tower-like storage container takes place during a lead time of 1 to 2 hours. 9. Device for carrying out the method according to claim 1, with a tower-like storage container (22) for the accept of the pulper and a pulper (1) and in each case a vortex flow and sorting apparatus provided in a circuit from and to the pulper, characterized in that at the bottom of the Cloth dissolver (1) has a rotor (2) with a vertical axis of rotation, which on a base body has upwardly decreasing outside diameters, at least in its lower part, or conically decreasing conveying spirals in terms of its outside diameter, as well as an accepting material space attached to the side of the pulper is separated by an essentially flat sieve with a perforation between 18 and 25 mm and deviating from the vertical by a maximum of 15 ° and along which an impeller (5) in the large fabric dissolver part can be rotated. 10th Device according to claim 9, characterized in that the material dissolver at least partially corresponds to circular sections in cross-section and that the sieve (7) is arranged in a radially outwardly projecting attachment part (28), so that within the large material dissolver part in the horizontal cross-section of the material dissolver the sieve surface with the Radials of the pulper through the intersection of the central axis of the impeller with the screen surface form an angle between 115 and 130 ° in the upstream region of the circulation flow of the suspension in the cross-sectional plane of the pulper there - and the side wall of the pulper in this area forms an angle with the mentioned radial between 20 DEG and 50 DEG forms. 11. The device according to claim 9 or 10, characterized in that the vortex flow apparatus is a pump according to the vortex system. 12th  Device according to claim 9 or 10, characterized in that the vortex flow apparatus (10) has a cylindrical housing with an impeller-like rotor (11) arranged at one axial end and the inlet opening centrally at the other axial end, the cross section of the housing interior in axial section having a ratio between 0.8 and 1.5 to 1 for the length to diameter ratio. 13. Device according to one of claims 9 to 12, characterized in that the sorting device is a substantially horizontal, perforated drum (17) rotatable about its central axis.