• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The subject of this invention is a process for the dissolution of fibrous materials (9), in particular for the dissolution of waste paper. The fibrous materials (9) are fed to a pulper (1) and mixed there with water (25) by means of a rotor (3) and at least partially dissolved. According to the invention, after the material dissolver (1) at least a part (20, 21, 23) of the pre-dissolved fibers (9) is fed to a thickener (30) for thickening and a dissolving drum (12) for further dissolution.
    公开号:AT512857A2
    申请号:T697/2012
    申请日:2012-06-20
    公开日:2013-11-15
    发明作者:Alexander Dipl Ing Gscheider
    申请人:Andritz Ag Maschf;
    IPC主号:
    专利说明:

    ΦΦ Φ · ΦΦ * ΦΦ Φ · ΦΦ * • c
    2626 AT
    Process for the dissolution of fibrous materials
    The subject of this invention is a process for the dissolution of fibrous materials, in particular for the dissolution of waste paper. The fibrous materials are fed to a low consistency pulper and mixed there with water by means of a rotor and at least partially dissolved.
    So far, it has been customary in particular in waste paper processing to dissolve the waste paper in a pulper and to feed the reject flow of the pulper to a so-called disposal machine in which the pulp suspension is cleaned and destalked. The reject from the disposal machine, which can already be prewashed there, is usually supplied cyclically to a washing drum in which the reject is washed or dehydrated.
    Depending on the application, it is quite common to operate several dissolution lines in parallel. The waste paper is often present with different degrees of quality. For difficult-to-dissolve waste paper, the process described above is often used with a pulper, with one or more disposal machine (s), which may also be charged with additional reject pumps, and with one or more wash drum (s). However, more easily dissolved waste paper is often dissolved in a collapsing drum only in a parallel running process. Reel drums are characterized by their low energy requirements, however, conventional dissolving drums are usually for the dissolution of difficult to dissolve
    2626 AT
    Waste paper such as A.O.C.C. {American Old Corrugated Containers) can be used only with restrictions. For such waste paper, the drum length would have to be significantly increased and the dissolution temperature increased. However, these measures lose the advantage of lower operating costs over systems with a pulper.
    The invention is therefore based on the object to disclose a method for the dissolution of fibrous materials, in particular for the dissolution of waste paper, can be dissolved energy-saving even with difficult to dissolve waste paper.
    This object is achieved by a method in which at least a portion of the pulp material supplied to the pulp is fed after the pulper a thickener and then a Auflos drum for further resolution. These are fiber lines containing both a pulper and a drum. In the thickener, the pulp suspension is thickened from a solids content of about 3-5% to a solids content of about 8-25%. The thickener may be, for example, a
    Gravity sieve thickener, a riser thickener, a rotary thickener or a Schneckeneindicker act.
    Due to the pre-dissolution in the pulper and the thickening, the drum or the pulper can be made smaller. The system can be operated so energy efficient. Conventional systems that only work with a reel drum require one
    2626-AT * · · · · «« * · · · • 4 · · · · • * «*«
    De-wiring unit for removing wires in front of the drum. On such Entedrahtungseinrichtung can be omitted here, since wires can be removed via the braid of the material dissolver.
    The invention will now provide a method by which even difficult to dissolve waste paper can be resolved reliably and energy-efficient, even if it should not always have the same quality.
    Preferably, at least a part of the
    Stoffaufloser coming fibers or waste paper with
    Help at least one pump supplied to the thickener, however, with a suitable layout planning, a free feed is possible.
    For the purposes of the present invention, pulp uncoupling is understood to mean a pulper with an open container to which the fibrous materials or waste paper and (process) water are supplied. The container contains a rotor that supports and accelerates the dissolution of the fibers.
    For the purposes of this invention, a dissolving drum is understood to mean a substantially horizontal to slightly inclined drum which rotates about its axis and in which the fibrous substances are dissolved and, in a further consequence, also separated from the reject (contaminant).
    The process according to the invention makes it possible for at least part (up to 100% possible) of the fibrous materials (preferably less soluble waste paper) to be fed to the material dissolver and to others as well
    2626-AT ♦ fl «fl fl fl fl fl fl fl fl · · · · · · · · · · · · · · · · · ·
    Fibers (preferably more easily soluble waste paper) can be fed directly to the dissolving drum.
    In the material dissolver there is normally a division of the pulp into a reject stream containing pulps and contaminants, and into an accept stream containing predominantly pulps and only a relatively small amount of pulp. However, this division is not always necessary in the context of this invention.
    In a first implementation example of the method, the entire fiber suspension from the material dissolver is fed to the thickener and the dissolving drum. It is advantageous to subject the fiber / contaminant suspension to heavy particle separation based on sedimentation before it is fed to the dissolving drum.
    In this case, the pulper (the pulper) is used primarily for a pre-dissolution of the pulp, the actual dissolution then takes place after thickening in the drum. In this operating variant, it is possible that the material dissolver is operated without a screen plate below the rotor. As a result, the wear on the Stoffaufloser is reduced or it can be a wear part - the screen plate - can be saved.
    The pre-dissolved fibers can leave the pulper either via the accept outlet and the reject outlet or only via one of these two outlets.
    In a second implementation example of the method, the pulper is divided into a reject stream (rejects but also fibrous materials) and into an accepts stream (mostly pulp with a low reject fraction) in the pulper. The entire reject current from the
    2626-AT «· · · · · · · · · · · · · · · · · · · · · · · · 4 * -« · 4 4 · 4 · «···
    Material dissolver is preferably fed via a reject pump, the thickener. It is advantageous, the reject flow, consisting of impurities and
    Pulp suspension to undergo a heavy separation based on sedimentation before it is fed to the thickener.
    Compared to conventional resolution systems, this method of operation eliminates the need for a disposal machine and a washing drum through the use of the dissolving drum, or it is also possible to make the low-consistency dissolver smaller because only pre-dissolution is required.
    In the case of the operating variants, it is favorable if the reject stream from the material dissolver is passed through a sedimentation tower or sedimentation container (heavy particle separator) directly adjacent to the material dissolver so that heavy particles such as glass or metal parts can be deposited therein.
    In the following, the two operating variants of the method according to the invention will be described with reference to drawings. Show it:
    1 is a process diagram for the dissolution of waste paper according to the prior art.
    2 shows a process diagram for a first operating variant of the method according to the invention.
    3 shows a further process scheme for a first operating variant of the method according to the invention.
    2626-AT · «· · Φ · · · · t · · * M«
    4 shows a process scheme for a second operating variant of the method according to the invention.
    The same reference numerals in the figures designate the same components or material flows.
    FIG. 1 shows a conventional process scheme for the dissolution of waste paper. In this case, fibers 9, ie waste paper bales, fed via a conveyor belt 10 to a pulper 1 (pulper). In the pulper 1, the waste paper is mixed with water 25, thereby, the waste paper dissolves and forms a
    Fibrous suspension. The material resolution in the pulper 1 is supported by the rotor 3. A majority of the dissolved fibers passes through the sieve 4 below the rotor 3 into an accepts space from which the Gutstoffström 20 is discharged from the Stoffaufloser 1. This accepts stream 20 is then fed via an accepts pump 6 for further processing other units.
    Part of the pulp suspension and in particular the impurities contained in the waste paper leave the pulper 1 as the reject flow 21 and enter the sedimentation tower 2. For the purposes of this invention, the reject flow 21 is understood as meaning a pulp stream which contains both pulps and impurities. The reject flow 21 leaves the sedimentation tower 2 via an overflow and is fed via a reject pump 5 to a disposal machine 7 (de-trasher). This can also be done without reject pump 5, if the disposal machine 7 is arranged below the overflow level.
    2626-AT • * «« * «· · + · * ι * · t • 7 ·· i I · ·
    The heavy parts are removed periodically with a gripper 11 from the sedimentation tower 2. However, it is also conceivable that at the lower end of the sedimentation container 2, a lock is arranged, which discharges the heavy parts cyclically.
    In the disposal machine 7, the pulp suspension, ie the reject flow 21 (fiber suspension stream and impurities flow), is cleaned and deflaked (deflaked) This is done with the aid of a rotor and a sorting screen which must pass through the material 22. Disposal machines 7, so-called detrashers, often become also referred to as cleaning machines or secondary pulpers.
    The disposal machine 7 is usually operated cyclically. In this case, in a first method step, the reject flow 21 from the material dissolver 1 of
    Disposal machine 7 fed and deducted the accepts 22 from the Acceptance space behind the sorting screen. In this step, which is also referred to as Acceptance Acceptance, Rejekt accumulates in the disposal machine 7. The Gutstoffström 22 from the disposal machine 7 is either fed back to the pulper 1 or combined with the Gutstoffström 20 from the pulper 1.
    In a second process step, the Gutstoffabfuhr 22 is then closed and the accumulated in the disposal machine 7 reject aftertreated, in particular Abststppt. Often, the term "re-pulping process" is also used. used for this process step.
    2626-AT »· ♦
    Ψ 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 t • • • • • • • • • • • • • • • • • • • • • • • # * * · • ♦ · «• ·
    After the embroidering, in a third method step the accepts removal 22 is opened again and the reject in the disposal machine 7 is rinsed with process water 24, thereby the reject is washed and fibers are rinsed into the accept flow 22.
    Finally, in a fourth process step, the Gutstoffabfuhr 22 is closed again and discharged the rejected reject as reject stream 23 and fed to a washing drum 8 and there washed again with the help of water 24 and dewatered. The Gutstoffström 27 from the washing drum 8 is again fed to the pulper 1 and the washed reject 26 disposed of. It is sometimes also advantageous, depending on heavy particle content in the waste paper auszuschleusen any accumulated heavy parts in the Entsogungsmaschine periodically by a bottom outlet.
    Then the cycle starts again from the beginning with the first process step. The reject flow 23 from the disposal machine 7 is thus cyclically fed to the washing drum 8 in conventional methods.
    FIG. 2 shows a first operating variant of the method according to the invention.
    In this case, a part (this can be up to 100%) of the fibers 9 fed via a conveyor belt 10 to the pulper 1. Another part of the fibrous material 9 'can optionally be fed to the dissolving drum 12 via a conveyor belt 10'. The fibrous materials 9 are preferably higher quality waste paper which is less soluble. The fibers 9 'are primary
    2626-AT * ♦ * «« ♦ · • ft * »m I * ·
    to easily dissolvable mostly inferior waste paper, which can be well resolved even in a dissolving drum 12. In this first operating variant, the entire pulp stream (fiber suspension and impurity stream) from the pulper 1 after deposition of heavy particles in the sedimentation tower 2 or sedimentation as reject flow 21 the thickener 30 and the dissolving drum 12 is supplied. This supply takes place here with the aid of a reject pump 5, but with suitable layout planning, a free feed is possible. The Stoffaufloser 1 is operated without screen plate below the rotor 3. Through the thickener 30, the reject flow 21 is thickened from a solids content of, for example, 3-5% to a solids content of, for example, 8-25%.
    The heavy parts are removed periodically with a gripper 11 from the sedimentation tower 2. However, it is also conceivable that at the lower end of the sedimentation container 2, a lock is arranged, which discharges the heavy parts cyclically.
    In this first operating variant, the material dissolver 1 functions primarily as a pre-dissolver, the actual pulp dissolution takes place in the dissolving drum 12, and therefore the material dissolver 1 can be correspondingly made smaller and more energy-efficient.
    Behind the Auflostrommel 12 is a sorting section 13, in which the pulp suspension is divided into a Gutstoffstrom 28 and into a Rejektstrom 29.
    FIG. 3 shows a further exemplary embodiment of the first operating variant of the method according to the invention.
    2626-AT Μ ·· «» «I« Ι · «Η > : ..
    Here, however, the entire Faserstoffström 20 (pulp and contaminants) from the pulper 1 as Gutstoffström 20 via the accept pump 6 to the thickener 30 and the dissolving drum 12 is supplied. Again, the Stoffaufloser 1 is operated without screen plate below the rotor 3. Heavy parts can be removed here via a heavy-duty lock (not shown), which is mounted on the bottom of the pulper 1.
    FIG. 4 shows a second operating variant of the method according to the invention. Here, too, part of the pulp 9 is fed to the pulper 1 and optionally another part of the pulp 9 'to the pulper drum 12.
    In the material dissolver 1 there is a partial dissolution of the fibers 9. The dissolved fibers leave the material dissolver 1 via the sieve 4 as good substance 20. The entire reject flow 21 of the material dissolver 1 is fed to the thickener 30 and the dissolving drum 12 with the aid of the reject pump 5. Previously, heavy parts contained in the reject flow 21 can be separated in the heavy particle separator 2.
    The Gutstoffström 20 from the material dissolver is fed by means of the accept pump 6 to the dissolver drum 12 passing further units.
    权利要求:
    Claims (8)
    [1]
    2626-AT Μ # · «• • • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · ·. 1. A method for the dissolution of fibrous materials (9, 9 '), in particular for the dissolution of waste paper, wherein at least a part of the fibrous material (9) is fed to a pulper (1) and there by means of a rotor (3) with water (25 ) is mixed and at least partially dissolved, characterized in that at least a portion (20, 21, 23) of the pulp (1) supplied pulps (9) after the Stoffaufloser (1) for thickening a thickener (30) and then to the other Resolution of a dissolving drum (12) is supplied.
    [2]
    2. The method according to claim 1, characterized in that the at least one part (20, 21, 23) of the material from the pulper (1) coming fibers (9) by means of a pump (5, 6) is fed to the thickener (30) ,
    [3]
    3. The method according to claim 1 or 2, characterized in that in Stoffaufloser (1) a division of the fibers (9) in a Rejektstrom (21), which also contains fibrous material (9), and in a Gutstoffström (20), the majority Contains fibrous material (9) takes place.
    [4]
    4. The method according to any one of claims 1 to 3, characterized in that all fibers (9) from the Stoffaufloser (1) are fed to the thickener (30).
    [5]
    5. The method according to claim 3, characterized in that only the reject stream (21) from the material dissolver (1) is at least partially fed to the thickener (30). 2626 AT

    «» «« Ft • * * * * ft * ft ft * *
    [6]
    6. The method according to claim 5, characterized in that the entire Rejektstrom (21) from the Stoffaufloser (1) is fed to the thickener (30).
    [7]
    7. The method according to any one of claims 5 to 6, characterized in that the reject stream (21) from the material dissolver (1) by a sedimentation device (2) is guided before it is at least partially fed to the thickener (30). 10
    [8]
    8. The method according to any one of claims 1 to 7, characterized in that further fibers (9 ') directly to the dissolving drum (12) are supplied.
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    同族专利:
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    SE380845B|1973-03-19|1975-11-17|Mo|WAY TO PRODUCE PULP OF WASTE PAPER|
    FI822894L|1981-08-20|1983-02-21|Black Clawson Co|FOERFARANDE OCH ANORDNING FOER AOTERVINNING AV PAPPERSTILLVERKNINGSFIBRER UR SMUTSIGA PAPPERSAVFALLSPRODUKTER|
    DE3221932A1|1982-06-11|1983-12-15|J.M. Voith Gmbh, 7920 Heidenheim|PLANT FOR RECYCLING PAPER|
    EP0164428B1|1984-06-09|1988-12-07|Hermann Finckh Maschinenfabrik GmbH & Co.|Apparatus for pulping and sorting waste paper|
    FI92338C|1991-06-07|1994-10-25|Ahlstroem Oy|Process and apparatus for processing recycled paper|
    US6083350A|1996-03-01|2000-07-04|Voith Sulzer Stoffaufbereitung Gmbh|System for treatment of waste paper having a pulping drum and a perforated sorting area|
    US6322664B1|2000-10-17|2001-11-27|Voith Sulzer Paper Technology North America, Inc.|Method of processing recycled waste paper by separating fibers of different colors|
    DE10116368A1|2001-04-02|2002-10-10|Voith Paper Patent Gmbh|Process for processing waste paper containing wood pulp|
    JP2004211276A|2002-11-15|2004-07-29|Aikawa Iron Works Co Ltd|Disaggregation apparatus for papermaking raw material and method for disaggregation papermaking raw material|
    KR20070014363A|2005-07-28|2007-02-01|월드파텍|Apparatus and method of obtaining linerboard pieces from old corrugated cardboard by selectively defibering corrugated medium|
    DE102011012191A1|2010-10-05|2012-04-05|Hans-Joachim Boltersdorf|Process for the treatment of green waste|
    FI123000B|2011-04-19|2012-09-28|Metso Paper Inc|Drum pulper, pulper system and method for disintegrating fibrous material|CN103510415B|2012-06-20|2018-02-16|安德里特斯公开股份有限公司|Method for decomposing fibrous material|
    FI20185942A|2018-11-06|2020-05-07|Valmet Technologies Oy|Screen plate, pulper, process and method for manufacturing fibre mass suspension|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    ATA497/2012A|AT512395B1|2012-04-24|2012-04-24|Process for the dissolution of fibrous materials|
    ATA697/2012A|AT512857B1|2012-04-24|2012-06-20|Process for the dissolution of fibrous materials|ATA697/2012A| AT512857B1|2012-04-24|2012-06-20|Process for the dissolution of fibrous materials|
    CN201310247102.9A| CN103510415B|2012-06-20|2013-06-20|Method for decomposing fibrous material|
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