DE102013225247A1 - Stock preparation - Google Patents

Abstract

The invention relates to a process for the treatment of a fibrous suspension (1) at least partially made of recycled pulp and suitable for producing a paper, board tissue or other fibrous web with the addition of aluminum ions. In this case, the need for auxiliaries should be reduced by measuring the charge characteristics of the pulp suspension (1) and controlling the amount of aluminum ions supplied as a function of the charge characteristics.

Description

The invention relates to a process for the treatment of a pulp suspension which is at least partly made of recycled pulp and suitable for the production of a paper, board tissue or another pulp web with the addition of aluminum ions.

The increasing use of rejects and waste paper in papermaking and the increased reduction in the use of fresh water have led to an increase in substances harmful to the production process or disturbing substances in the water cycles. Also, chemical additives such as oils, solvents, rosin sizes, synthetic sizing agents, adhesives, wet strength agents, retention aids, starch, biocide formulations, dispersants, bleaching chemicals, detergents, dyes, complexing agents and solubilizers, which are selectively supplied to the process carry by enrichment in the circuits to an increase in the concentration of colloidally dissolved impurities directly or from the interaction with each other. Other sources include fibrous extracts, lignin and lignin derivatives, hemicelluloses and carbohydrates. The growing concentration of impurities leads to a reduced efficiency of the mostly cationic functional chemicals, such as fixatives, retention polymers. The saturation of the process water with colloidally dissolved, anionic impurities, which occurs at high process temperatures, leads to precipitations and deposits in the cooler zones. Even low temperature gradients are sufficient to cause sticky deposits on hydrophobic or particularly adhesive surfaces, such as screen material, felt material, roll surfaces, low-flow zones, for example. These can affect the process sensitively by the formation of holes in the paper, breaks, cleaning stops or the like.

Paper properties such as whiteness, opacity, color and strength are also affected by the presence of colloidal impurities. In addition, an increased tendency to odor in the paper may occur. The impurities can also lead to increased foam by lowering the surface tension, which has a negative effect on the paper quality or makes the increased use of foam regulators required. The accumulation of contaminants in the entire water cycle system depends on the amount of raw materials supplied, the process temperature, the extractability, the water circulation rate, the amount discharged with the wastewater, the discharge of impurities with the paper produced and the supply of fresh water. In particular for the narrowing of the water cycles, d. H. the reduced supply of fresh water and the correspondingly reduced removal of wastewater sets up an increased concentration of colloidally dissolved impurities in the circulating waters.

In addition to the high concentration level, dynamic fluctuations of the contaminant loads also represent a limitation for a targeted chemical-technological management of the process. This leads to continuous incorrect dosing of functional chemicals with the effects described above.

The object of the invention is therefore to minimize the need for functional chemicals without affecting the pulp treatment.

According to the invention, this object is achieved in that the charge characteristics of the pulp suspension are measured and the amount of aluminum ions supplied is controlled as a function of the charge characteristics.

The charge characteristics of the pulp suspension are essentially dependent on the input of contaminants via the recycled pulp. Fluctuations in the composition of the recycled pulp inevitably lead to a correspondingly large fluctuation in the charge characteristics and thus also the need for functional chemicals. Accordingly, the goal is to keep the charge characteristics as constant as possible via the addition of aluminum ions. In order to achieve a homogeneous distribution of the impurities in the fibrous web and to counteract an accumulation of these colloidally dissolved impurities in the white water or clear filtrate of the sheet forming device, the colloidally dissolved impurities are to be deposited by the aluminum ions to the fibers.

As an auxiliary parameter for determining the charge characteristics, the cationic requirement of the pulp suspension is particularly suitable. This can be detected online using known sensors based on a polyelectrolyte titration. The cationic requirement of a suspension is the amount of charge equivalent required to neutralize the charges of the dispersed and solute present in it.

In the interests of a charge characteristic that is as constant as possible, the amount of aluminum ions supplied should be increased with increasing cationic demand and correspondingly reduced with decreasing cationic requirements.

The process of narrowing the surface charge variance can also be controlled, which is why measurement of the charge characteristics should be made after the addition of the aluminum ions. To this In this way, the effect of adding the aluminum ions can be detected relatively accurately and promptly.

A simple and uniform addition of the aluminum ions is possible in particular when the aluminum ions are added to an auxiliary fluid, preferably process water, wastewater or fresh water, which is subsequently admixed with the pulp suspension.

Since the auxiliary fluid contains no or only little impurities, it comes only to a small pre-reaction with the aluminum ions. Furthermore, it is possible via a thorough mixing of pulp suspension and auxiliary fluid, for example via a pump or other mixing device, to distribute the aluminum ions as evenly as possible in the pulp suspension.

Usually, the addition of aluminum ions takes place in pulp suspensions in paper machines containing such impurities by the addition of potash alum or potassium aluminum sulfate, ammonium aluminum sulfate or polyaluminum chloride.

However, it is advantageous in this case if the aluminum ions are completely or partially electrolytically generated in the auxiliary fluid or the pulp suspension itself. Regardless of the mode of delivery, the Al ³⁺ ion is particularly effective.

By electrolysis, the aluminum ions are freshly dissolved and can react so quickly before they are otherwise bound by side reactions. This ensures the effectiveness of aluminum ions over a wide pH range, especially in neutral driving, which further allows the use of calcium carbonate as a filler. Furthermore, a salinisation of the water cycles, an odor nuisance and bacterial growth are avoided.

From the DE 10/2010 001 769 A1 , of the DE 10/2010 001 801 A1 , of the DE 10/2010 001 808 A1 and the DE 10/2010 030 996 A1 For example, devices and / or methods are known in which electrolysis devices are flowed through by a process fluid, during which electrochemically produced aluminum ions are released by the electrolysis device to the respective process fluid.

In addition, in the electrolytic production, the amount of added aluminum ions can be easily controlled by the variation of the current or the voltage. The connection or disconnection of individual electrolysis reactors can be useful here. The controlled or controlled addition of aluminum ions can effectively prevent overdosing of aluminum ions, in particular if, for example, the concentration of impurities drops. This in turn prevents excess aluminum ions from adversely affecting a wide variety of sub-processes in the machine. This is particularly important because of the increasingly implemented in paper machines, closed and partially interconnected fluid circuits. Also, a penetration of aluminum ions, for example by process water recycling to the deinking stage is prevented. Such penetration of aluminum ions has a negative effect on the deinking step, so that an increased use of deinking chemicals may become necessary. If an increase in deinking chemicals is not carried out, the efficiency of the deinking step may decrease and the pulp web quality may fall to an intolerable level.

In order to support the electrolysis, conductive salts should be dissolved in the corresponding fluid, preferably in the auxiliary fluid. In order to improve or facilitate the effect of the aluminum ions, the pulp density of the pulp suspension should be between 3 and 16% when the aluminum ions are added. Therefore, it is also advantageous if the addition of aluminum ions takes place after dewatering of the pulp suspension.

Since the aluminum ions are to cause the fixation of impurities on the fibers, they are added to the pulp suspension at the inlet and / or outlet of a fabric chest, a stacking tower or a mixing chest for the headbox. The aluminum ions react u.a. with colloidal solutes in the pulp suspension, with larger conglomerates arise, which accumulate advantageous due to the hydroxide-like character of the fibers. This allows the aluminum ions to replace or support the function of chemical fixatives.

The invention will be explained in more detail below with reference to two exemplary embodiments. In the accompanying drawing show the 1 and 2 different investment schemes for the realization of the invention.

In the stock preparation partially shown in both figures, the pulp suspension becomes 1 for a paper machine for making a paper web provides. The pulp suspension passes through 1 several treatment levels 7 Such as dissolving, cleaning, grinding, etc. Here, for example, wood fibers, fabric fibers, metal fibers, plastic fibers, glass fibers, auxiliaries, additives, fillers or a mixture thereof may be used as a pulp. As a result, can a fibrous web, for example, a paper web, a tile, or the like represent.

Before the pulp suspension 1 to ensure a desired delivery of subsequent processes into a stacking tower 3 passes, they still goes through a treatment stage in the form of a dewatering device 6 , In this dewatering device 6 It can be, for example, disc filters, screw presses or similar. act. After the dewatering device 6 is the pulp density of the pulp suspension 1 between 6 and 35%.

Because of the increasing use of waste paper in the production of pulp suspension 1 this has a high and fluctuating amount of impurities. Although it tries to remove the impurities in the treatment stages 7 but only partially succeeds. In order to prevent an impairment of the production of the fibrous web by these impurities, the pulp suspension 1 Aluminum ions fed. These aluminum ions are in an electrolysis reactor 9 generated by an auxiliary fluid 2 in the form of process water. The aluminum ions of the electrodes of the electrolysis reactor 9 get so fresh in the auxiliary fluid 2 , Because of in relation to the pulp suspension 1 low load of the auxiliary fluid 2 With impurities it comes only to small pre-reactions of the aluminum ions in the auxiliary fluid 2 , In support of the electrolysis, the auxiliary fluid 2 Conducting salts mixed.

Between the electrodes of the electrolysis reactor 9 is a constant voltage. However, the current intensity for controlling the amount of supplied aluminum ions from a control unit 4 specified.

For recording the charge characteristics of the pulp suspension 1 is from a known sensor 8th the cationic demand of the pulp suspension 1 captured after drainage and sent to the control unit 4 transmitted. In order to reduce the fluctuation of the charge characteristic due to fluctuating and compositionally changing contaminant load, is provided by the control unit 4 the amount of supplied aluminum ions is increased by increasing the current intensity with increasing cationic demand and vice versa.

The in the auxiliary fluid 2 Existing aluminum ions are passed through a mixing device 5 the pulp suspension 1 added. This ensures a uniform distribution of the aluminum ions in the pulp suspension 1 , being used as a mixing device 5 For example, pumps or static mixer can be used.

So that the effect of aluminum ions on the charge characteristics, or the cationic need can be detected as quickly and effectively as possible, is the sensor 8th after the mixing device 5 arranged. As a result, the need for functional chemicals can be significantly reduced.

While in 1 the mixing device 5 between dewatering device 6 and stacking tower 3 is the mixer 5 at 2 only after the stacking tower 3 to find.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10/2010001769 A1 [0016]
• DE 10/2010001801 A1 [0016]
• DE 10/2010001808 A1 [0016]
• DE 102010030996 A1 [0016]

Claims (10)

Process for the treatment of a pulp suspension produced at least partly from recycled pulp and suitable for producing a paper, board tissue or other pulp web ( 1 ) with the addition of aluminum ions, characterized in that the charge characteristics of the pulp suspension ( 1 ) and the amount of supplied aluminum ions is controlled as a function of the charging characteristic. A method according to claim 1, characterized in that for determining the charge characteristics of the cationic demand of the pulp suspension ( 1 ) is measured. A method according to claim 1 or 2, characterized in that the amount of supplied aluminum ions is increased with increasing cationic demand and vice versa. Method according to one of the preceding claims, characterized in that the measurement of the charge characteristic takes place after the addition of the aluminum ions. Method according to one of the preceding claims, characterized in that the aluminum ions an auxiliary fluid ( 2 ), preferably process water, wastewater or fresh water are added, which subsequently the pulp suspension ( 1 ) is added. A method according to claim 5, characterized in that the aluminum ions in the auxiliary fluid ( 2 ) are produced electrolytically. Method according to claim 5 or 6, characterized in that in the auxiliary fluid ( 2 ) Conductive salts are dissolved. Method according to one of the preceding claims, characterized in that the pulp density of the pulp suspension ( 1 ) is between 3 and 16% when the aluminum ions are added. Method according to one of the preceding claims, characterized in that the addition of the aluminum ions in the pulp suspension ( 1 ) at the inlet and / or outlet of a Stoffbütte, a stacking tower ( 3 ) or similar he follows. Method according to one of the preceding claims, characterized in that the addition of the aluminum ions after dehydration of the pulp suspension ( 1 ) he follows.

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