DE3536337C1 - Process and device for stock preparation for ash-containing raw material in waste paper processing - Google Patents

Description

The invention relates to a method according to the preamble of claim 1 and facilities for performing the Ver driving.

There is often the task in stock preparation systems Fabric, d. H. the stock suspension, e.g. B. waste paper suspension, on a to ash the exact ash content to produce a final product, e.g. B. paper or tissue, with precise ash content.

Various ash removal devices are now known, the according to DE-A 30 05 681 enables a corresponding production output light.

Such deashing devices can be controlled with an adjustable drive position of the speed of the belt to be operated. This mainly serves to increase the production rate to the required value to adjust with possibly also variable inlet consistency sen. Regulation of these devices for compliance with a ge  exact ash content is in large ranges (e.g. between 3 and 10% Ash content) difficult to achieve.

The object of the invention is now a method and arrangements specify that allow an accurate Adjust the ash content.

This task is carried out in a method of the type specified at the outset by the features of the characterizing part of patent claim 1 solved.

It is possible with this procedure with an accuracy of at least ± 10% adjust the ash content. The corresponding ash removal ap Ready is designed so that it is as low as possible Ash content enables. In general, it is now that such Deashing devices are used in a plant, the one Has a discharge rate which is dimensioned for several paper machines. Falls now a paper machine, the production rate of Ent ash apparatus can be lowered. This is the case with the procedures possible without a change in Ash content will occur because yes the control device that the Material flow of the sludge returning to the main line Back mixing pipe the returned ash flow according to the Er needs. This can either be done with a dosing pump or with a flow meter that turned on in the backmix line switched valve controls can be reached. In particular, however completely different end ash contents can be set.

The invention is explained below using an exemplary embodiment shown in the drawing, which shows a section of a stock preparation system.

The scheme begins where the waste paper has already been dissolved and pre-sorted, ie pre-cleaned. After further processing in the cleaner system 1 and system 2 with vertical classifiers, the fiber suspension generally reaches the ash removal apparatus 3 in a consistency range between 0.5 and 1.5%. This is preferably designed as a twin-wire belt device. Its working speed is between 300 and 1000 m / min, and the weight per unit area (after ash removal) is between 20 and 100 g / m ² . This means that minimum output ash levels of between 2.5 and 5% are possible. However, these should only be regarded as reference values.

In the main stream, the fiber suspension then arrives at a belt pressure filter 16 , e.g. B. to set a high consistency for an intended bleaching process. The ash filtrate from the deashing apparatus 3 then passes via line 5 to a sedimentation device 4 , which can also be a flotation device or a combined device. In this device, the ash is essentially separated, which is then discharged into line 7 by means of a pump 6 . It is now on line 7, a backmix line 14 ruled out, in which a flow meter 8 and a throttle valve 9 are switched on. The flow rate is controlled via valve 9 by means of the flow device 8 and control device 10 , specifically according to the amount required to achieve the required ash content in the remixing point 20 . It can also be the further flow behind the branch point in line 7 by means of flow meter 12 and throttle valve 11 and control unit 13 are adjusted. The residual filtrate is then preferably passed to a screw centrifuge in order to recover clear water.

Preferably, the system is constructed so that vertical sifters are switched on behind the sedimentation device in the Klarwasserlei device 21 to absolutely, at least as pure as possible clear water in the devices that are in the main line before the Entaschungsap paratur, z. B. Cleaner 1 and vertical sifter 2 , zurückzulei th. In this way, an even more precise adjustment of the ash content is possible because the input values of the ash removal apparatus 3 are not falsified by recycled ash content.

In this way, strong changes in the required ash hold z. B. between 3 and 10%. This can also be done regardless of what production output is required from the deashing device 3 . It is designed for maximum de-ashing performance and is regulated by means of the arrangement shown based on the ash content mixed in after the de-ashing apparatus.

A twin sieve for ash removal is e.g. B. known from U.S. Patent No. 38 76 498.

Claims (5)

1. A process for stock preparation in ash-containing starting material in the waste paper processing using a Ent ashing stage, characterized in that at least one known ash removal apparatus ( 3 ) large Entaschungswir kungsgrad is used, the filtrate of this apparatus in a known sedimentation or flotation or combined Facility cleaned and the blowdown thereof in the amount required according to the required ash content of the processed material after the ash removal apparatus ( 3 ) is partially admixed again in precise dosing to the ash removal stream. 2. The method according to claim 1, characterized in that the Clear water from sedimentation or flotation or com Bined facility after final cleaning using at least a vertical sifter before the reprocessing process is added to the deashing device. 3. Arrangement for performing the method, characterized by a sieve belt device ( 3 ) high sieving speed, which is between 300 and 1000 m / min. 4. Arrangement according to claim 3, characterized by a double screen belt device ( 3 ). 5. Arrangement according to claim 3 or 4, characterized by a flow meter in the backmix line ( 14 ) for the returned ash suspension, which controls a throttle valve ( 9 ) arranged in this line in accordance with the required backmixing content in order to achieve the required final ash content.