RU2346096C2 - Method for control of bleaching process for treatment of waste paper and bleaching device for realisation of this method - Google Patents

Abstract

FIELD: textile fabrics, paper.

SUBSTANCE: invention is intended for application in pulp and paper industry. Method of bleaching process control for waste paper treatment is characterised by the following operations: preparation of fibrous suspension; measurement of fibrous suspension whiteness; mixing of fibrous suspension with bleaching substance; supply of mixed fibrous suspension to reservoir for bleaching; extraction of mixed fibrous suspension from reservoir for bleaching after certain time interval. Bleaching substance comprises mixture of separate substances, besides amount and/or composition of added bleaching substance is established depending on measured whiteness of fibrous suspension so that possible permanent specified whiteness of extracted fibrous suspension is achieved. Whiteness of extracted fibrous suspension is measured and compared in adaptation mode with specified whiteness, and depending on result of comparison compliance pattern is coordinated. Bleaching device contains reservoir for bleaching, supply pipeline with whiteness sensitive element, metering device, control device, discharge device.

EFFECT: prevention of large oscillations of fibrous suspension whiteness at the end of bleaching process, at that load of used bleaching substance is minimum.

7 cl, 2 dwg

Description

The invention relates to a method for controlling a bleaching process for processing waste paper, as well as to a bleaching device for implementing such a method.

An important process operation in the processing of paper waste paper is bleaching. By adding a bleaching agent to the fiber suspension, the whiteness (for example, brightness) or, accordingly, the chromaticity coordinate (for example, red, green, blue) are changed. A bleaching agent typically contains bleaching chemicals like hydrogen peroxide, as well as activating and / or stabilizing chemicals like sodium hydroxide solution and water glass.

Until now, the bleaching process is carried out by adding a predetermined amount of bleaching agent to achieve a minimum bleaching effect, so that the whiteness of the fiber suspension after bleaching does not deviate below a certain criterion or, accordingly, approximately lies within a certain range of values. Also, the composition of the bleaching agent is set so that a certain bleaching effect is constantly achieved. With a changing load of waste paper due to various qualities of the fiber, vibrations in the whiteness of the fiber suspension bleaching process can appear. Using the bleaching agent added in a certain amount and composition, the fiber suspension is thereby bleached too much or too little, so that the whiteness of the fiber suspension after the bleaching process is either too small or too large. If the whiteness is too high, it needs to be lowered again, for example, with the help of a paint additive.

Since the passage of the fiber suspension at the beginning of the bleaching process to the presence of the processed paper lasts several hours, it is not possible to adjust the bleaching process depending on the brightness of the paper at the end of the manufacturing process, since changes in the brightness of the fiber suspension occur much faster at the beginning of the bleaching process.

An object of the present invention is to provide a method for carrying out a bleaching process that can prevent large fluctuations in the whiteness of the fibrous suspension at the outlet of the bleaching process and which minimizes the loading of the used bleaching agent.

This problem is solved by the method according to paragraph 1 of the claims, as well as the whitening device according to paragraph 7 of the claims.

Further preferred forms of carrying out the invention are given in the dependent claims.

According to a first aspect of the present invention, there is provided a method for controlling a whitening process for processing waste paper. In the prepared fiber suspension, the whiteness is measured and the fiber suspension is mixed with a bleaching agent. The mixed fiber slurry is fed into a bleaching tank to bleach it for a certain period of time. The mixed fiber slurry is taken from the bleaching tank after a certain period of time. The amount and / or composition of the added whitening is set depending on the measured whiteness of the fibrous suspension so that a possibly constant desired whiteness of the selected fibrous suspension is achieved.

According to the invention, the control method for controlling the bleaching process thus provides, depending on the measured whiteness of the fiber suspension before the bleaching process, to determine the amount and / or composition of the bleaching agent that is added to the fiber suspension. Thus, the bleaching process can be carried out for each fraction of the loaded fiber suspension with such an amount and / or with such a composition of added bleaching agent with which the bleaching process is carried out with the corresponding part of the fiber suspension so that at the end of the bleaching process a certain predetermined whiteness is achieved.

According to a preferred embodiment, the whitening agent may comprise a mixture of substances from a plurality of substances, the whitening agent comprising a whitening chemical and / or stabilizing chemical.

Preferably, the determination of the amount and / or composition of the bleaching agent is carried out using the white suspension scheme of the fibrous suspension. The correspondence scheme can be performed, in particular, using a function, table or correspondence diagram.

An adaptation mode may be provided in which the whiteness of the selected fibrous suspension is compared with a predetermined whiteness and, depending on the result of the comparison, a matching scheme is agreed.

In particular, the determination of the amount and / or composition of the bleaching agent with the prescribed whiteness is carried out in such a way that the cost of preparing the bleaching agent is minimal. Since the bleaching agent often consists of many different substances, which in different combinations achieve a comparable bleaching effect, it is advisable to choose those combinations, that is, the amount and / or composition of the bleaching agent, so that the cost of this or, accordingly, the cost of whitening preparation preparations are minimized.

According to a further aspect of the present invention, there is provided a bleaching device for performing a bleaching process for processing waste paper. The bleaching device comprises a bleaching tank in which the fiber suspension is bleached using a bleaching agent. Using a feed mechanism, the fibrous suspension is introduced into the bleaching tank. The whiteness sensing element measures the whiteness of the fibrous suspension in the supply line and, using a metering device, provides the supplied fibrous suspension with bleaching agent. A control device is provided which is connected to the metering device in order to set, depending on the measured whiteness of the supplied fiber suspension, the amount and / or composition of the bleaching agent so that a possibly constant whiteness of the selected fiber suspension is achieved.

The bleaching device according to the invention has the advantage that the bleaching process is adjusted when the desired whiteness obtained after the bleaching process of the fiber suspension and depending on the measured whiteness of the supplied fiber suspension is applied due to the fact that the bleaching agent is added to the supplied fiber suspension in a suitable amount and / or with suitable composition.

According to a further embodiment of the invention, the control device comprises a storage device for storing the correspondence diagram in the form of a function, table or correspondence diagram. Due to this, it is possible to assign the measured whiteness in accordance with a certain amount and / or composition of the bleaching agent so that the bleaching agent is added to the supplied fiber suspension in an appropriate manner.

According to a further embodiment of the invention, a drainage device may be provided so that after a certain period of time, the fiber suspension is withdrawn from the bleaching vessel, the drainage device being connected to the next whiteness sensing element in order to measure the whiteness of the removed fiber suspension. The control device is designed in such a way as to adapt the matching scheme in adaptation mode depending on the whiteness of the allotted fiber suspension.

Preferred embodiments of the invention are explained in the following in more detail with reference to the attached drawings.

Figure 1 - schematic representation of part of a process for the processing of waste paper, which produce bleaching of a fibrous suspension.

FIG. 2 is a correspondence diagram that represents a function to describe the amount and / or composition of a bleaching agent to be added.

Figure 1 presents a part of the process for processing waste paper. A preflotation tank 1 is presented in which particles of printing ink are removed from a fibrous suspension formed from waste paper. The fiber suspension thus pretreated in this way through the inlet pipe 2 is fed to the dispersing device 3. The dispersing device 3 is connected through the next inlet pipe 5 to the capacity of the bleaching agent 4. In the next inlet pipe 5 there is an actuating valve 6 to set the amount of bleaching agent supplied.

In an alternative embodiment, several containers for the bleaching agent 4 may be provided, in which there are bleaching chemicals, stabilizer chemicals and the like, which are connected to the dispersing device 3 through a plurality of subsequent supply pipes 5 and corresponding actuating valves 6. valves 6, you can set both the number of supplied substances and the composition of the bleaching agent formed from these substances. In addition, water can be added in a set amount to adjust the concentration of added substances.

The dispersing device 3 serves to mix the supplied substances with the fiber suspension introduced through the inlet pipe 2 and to supply it to the bleaching tank 7. The fiber suspension mixed with the bleaching agent is mainly lumpy or viscous so that it settles on an already in the container for bleaching 7 fibrous suspension, mainly not miscible with it.

The bleaching tank 7 has a screw mixer at its lower end, which drives the fiber suspension into the discharge pipe 8 and leads it to the post-flotation tank 9. From the post-flotation tank 9, the fiber suspension enters the next steps of the waste paper processing system, at the end of which can stand manufacturing of processed paper.

A control unit 11 is provided, which is connected to the whiteness sensing element 12, which is located on the supply line 2. The whiteness sensing element 12 measures the brightness or, accordingly, the chromaticity coordinate just connected to the fiber suspension dispersing device. The whiteness sensitive element can be made, for example, in the form of an optical sensor that measures the reflection of the irradiating light from the fibrous suspension and determines the whiteness or, accordingly, the chromaticity coordinate of the fibrous suspension.

The control unit 11 is connected to the actuating valve 6 so that the actuating valve 6 can be installed by the control unit 11 according to the control action. If there are many actuating valves 6, then they can be installed individually by the control unit 11 using control actions. The control unit 11 contains a drive 14, in which a matching circuit is stored. The correspondence scheme can be stored in the form of a function, a correspondence table, or a correspondence diagram and serves to determine, depending on the whiteness 12 of the let-in fiber suspension 2, measured by the sensing element, to determine the control action for the actuating valve 6 or, accordingly, the actuating valves 6.

Figure 2 shows a correspondence diagram that shows the degree of whitening (indicated as ΔQ) depending on the concentration of NaOH as a stabilizing chemical and H ₂ O ₂ (hydrogen peroxide) as a whitening chemical. The compliance chart refers to a bleaching agent that does not contain liquid glass. By setting a predetermined whiteness value for the removed fiber suspension, depending on the whiteness value for the supplied fiber suspension, the degree of whitening required can be determined. It is plotted on the z axis of the diagram of FIG. 2. If the required degree of whitening is determined, then, as a rule, there are many possible compositions of a bleaching agent from the NaOH and H ₂ O ₂ chemicals, since the same bleaching effect can be obtained using many combinations of bleaching chemicals. Therefore, it is advisable to choose the composition of the bleaching agent, the cost of preparation of which is possibly small and / or meets the rest of the requirements of the process. The number of possible compositions is obtained from the height line at the height of the degree of whitening to be set in the correspondence diagram.

The correspondence diagram is taught on the basis of the process data in the form of a model of the whitening action as a function of the concentration of chemicals, for example, in the form of a neural network or a Gaussian process. Given a given whiteness or, accordingly, the chromaticity coordinate of the fibrous suspension in the discharge pipe of the bleaching vessel and measured whiteness or, respectively, the measured chromaticity coordinate at the inlet of the bleaching vessel, the required concentration of chemicals can be calculated. Existing degrees of freedom can be used to minimize training costs.

To carry out the learning process, the following whiteness sensitive element 13 is located on the discharge pipe 8, which is connected to the control unit 11. In the adaptation mode, it is now possible to determine the bleaching effect of the added bleaching agent in the appropriate concentration, quantity and composition, and to produce or, accordingly, adjust the matching scheme, to optimize the management of the whitening process. In the adaptation mode, deviations from the desired desired whiteness and the actually achieved whiteness in the discharge pipe 8 of the bleaching tank 7 can be used, for example, to determine the mismatch.

Claims (7)

1. The method of controlling the bleaching process for the processing of waste paper, with the following operations: preparation of a fibrous suspension; measurement of whiteness of a fibrous suspension; mixing the fibrous suspension with a bleaching agent; feeding the mixed fiber slurry into a bleaching container (7); the selection of the mixed fiber suspension from the bleaching tank after a certain period of time, and the bleaching agent contains a mixture of many substances, and the amount and / or composition of the added bleaching agent is set depending on the measured whiteness of the fibrous suspension using a matching scheme so that a possibly constant the whiteness of the selected fibrous suspension, and the whiteness of the selected fibrous suspension is measured and compared in the adaptation mode with a given iznoy and depending on the result of the comparison consent of the relevant scheme. 2. The method according to claim 1, characterized in that the bleaching agent contains a mixture of many substances, and the bleaching agent contains a bleaching chemical and / or a stabilizing chemical. 3. The method according to claim 1 or 2, characterized in that the correspondence scheme is performed using a function, table or correspondence diagram. 4. The method according to claim 2, characterized in that the installation of the quantity and / or composition for a given whiteness is performed so that the cost of preparing the bleaching agent is minimized. 5. A bleaching device for carrying out a bleaching process for processing waste paper with a container (7) for bleaching a fiber suspension with a bleaching agent; with a supply pipe (2) for supplying a fibrous suspension to a bleaching container (7); with a sensing element (12) whiteness for measuring the whiteness of the fibrous suspension in the inlet pipe (2); with a metering device (6) to provide the supplied fiber suspension with a bleaching agent; with a control device (11) that is connected to a metering device (6) for setting the quantity and / or composition of the bleaching agent according to the measured whiteness of the supplied fiber slurry using a matching circuit to achieve as constant a preset whiteness of the selected fiber slurry; and with a diverting device (8) for diverting, after a certain period of time, the fibrous suspension from the bleaching vessel (7), the diverting device being connected to the following brightness sensor (13) for measuring the whiteness of the diverted fiber suspension, and the control device (11) is made with the possibility of matching the matching scheme in the adaptation mode, depending on the whiteness of the allotted fibrous suspension. 6. The device according to claim 5, characterized in that the control device (11) contains a drive (14) in order to store as a matching circuit a function, table or correspondence diagram. 7. The bleaching device according to claim 5 or 6, characterized in that the control device (11) is configured to set the quantity and / or composition for a given whiteness so that the preparation costs for the bleaching agent are minimized.

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