JPH0892888A - Scale preventing agent and prevention of scale in deinking process of wastepaper - Google Patents

Abstract

PURPOSE: To provide a method for preventing scale in the deinking process of wastepaper capable of continuously preventing the formation and adhesion of the scale developed in the process by adding a specific component. CONSTITUTION: This method for preventing scale in the deinking process of wastepaper comprises adding a scale preventing agent consisting of citric acid and/or its salt to the white water of a pulp in the deinking process of the wastepaper (waste-newspaper, etc.) uniformly to prevent a scale consisting of silica, calcium and aluminum derived from e.g. the raw material of wastepaper pulp and breaching assistants from forming, continuously prevent the produced scale from adhesion to a thickner, a filter, wires and other pipings, and prevent disturbances such as the obstruction of the pulp flow, the declining of the heat efficiency and the deterioration of the quality of the recycled paper.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thickener (concentrator), a filter and a wire (mesh) for the deinking process of waste paper in the paper and pulp industry, especially for the deinking bleaching process of waste paper with hydrogen peroxide.
The present invention relates to a scale preventive agent and a scale preventive method for continuously preventing scale that is generated and adheres to the pipes and equipment around it.

[0002]

2. Description of the Related Art In the process of deinking waste paper, the purpose is to separate and dehydrate the manufactured waste paper pulp and pulp white water.
Various separation and concentration devices such as thickeners and filters are installed. These are separated and separated by a concentrator, and 2
The waste paper pulp concentrated to 0 to 30% is further added with a bleaching agent such as hydrogen peroxide or a bleaching auxiliary such as sodium silicate or a chelating agent, and sent to a bleaching device to be a bleached pulp.

However, these series of separation, dehydration,
During the bleaching process, scales generated from silica, calcium, aluminum, etc. derived from waste paper pulp raw materials, bleaching aids and other additives, etc. adhere to the apparatus and its surrounding pipes, equipment, etc.

As an example, the generation and adhesion of scale in deinking bleaching of newspaper waste paper of a paper manufacturing company with hydrogen peroxide will be described. In deinking bleaching with hydrogen peroxide, hydrogen peroxide, sodium hydroxide and sodium silicate as a bleaching aid are added to waste paper pulp made from newspaper waste paper,
Bleaching is performed with a pulp concentration of about 30%. At that time, silica / aluminum-based scales are generated and adhered on the inner wall of the pipe or the bleaching device that sends the waste paper pulp, bleaching agent and bleaching aid mixture to the bleaching device (bleaching tower), and the transportation of the pulp mixture is hindered. . In the case of a certain paper manufacturing company, the analysis results of the adhered scale were 40% by weight as SiO ₂ , 15% by weight as CaO, 10% by weight as Al ₂ O ₃ , and 35% by weight as others. On calcium and aluminum scales, the ions eluted from the raw waste paper are alkaline and precipitate as hydroxides.On the silica scales, sodium silicate added as a bleaching aid precipitates due to dehydration condensation between molecules. It is thought to have been done.

As described above, when scales are generated and adhered in the deinking process of waste paper, not only the flow of liquid and pulp is obstructed, but also the thermal efficiency is lowered, the productivity is lowered, and the quality of pulp and paper is not uniform. It causes a serious problem and causes a serious obstacle to the operation of the device. In particular, silica-based scales are hard and have low thermal conductivity, and it takes time to clean and remove them.
It's a very difficult scale. Further, there is a problem that corrosion easily progresses in the lower part where the scale is attached.

[0006] Therefore, in the paper mill, the operation is periodically stopped to remove the scale adhering to the apparatus by acid cleaning, jet cleaning, or the like, and the operation of the apparatus is periodically replaced. However, removing the scale and replacing the device are labor-intensive operations themselves, and are extremely unfavorable in terms of production efficiency such as production loss and energy loss due to temporary stop of the operation of the device.

In the past, there has been a long-felt need in the paper manufacturing industry for a method of minimizing scale removal and equipment replacement by continuously preventing scale formation and adhesion.
For example, a method of using an acrylic acid copolymer or a maleic acid copolymer as an anti-adhesion agent for calcium carbonate scale in a continuous digester in a kraft pulp manufacturing process (JP-A-4-136286, JP-A-5-2956).
No. 86).

[0008]

However, deinking bleaching of hydrogen peroxide, such as recycled newspaper, with scale, which is generated and attached to pipes and equipment around the thickener, filter and other devices in the deinking process of used paper For the silica-aluminum-based scale produced in the process,
The generation of scale has not yet been completely prevented, and a more effective scale inhibitor and scale prevention method has been desired.

An object of the present invention is to solve the above-mentioned unsolved problems, and a scale for adhering to thickeners, filters and the like in the deinking process of used paper, especially deinking bleaching process using hydrogen peroxide for newspaper wastepaper and the like. It is intended to provide a scale preventive agent and a scale preventive method which are excellent in the effect on the silica / aluminum-based scale produced in 1.

[0010]

The inventors of the present invention intend to establish a method for continuously preventing scale formation and adhesion in thickeners and filters in the deinking process of waste paper and to establish a method for dissolving components in white water. (SiO ₃ ^2- , Ca ²⁺ , Al
As a result of diligent studies aimed at preventing the precipitation of ( ^3+, etc.) in alkaline conditions, by continuously adding citric acid and / or its salts (sodium salt, potassium salt, ammonium salt, lithium salt, etc.) to white water, etc. However, they have unexpectedly found that they have a remarkable effect of preventing scale precipitation, and have completed the present invention.

That is, the present invention relates to a scale preventive agent and a scale preventive method in a deinking process of waste paper, which is characterized by containing citric acid and / or a salt thereof.

Here, oxycarboxylic acids other than citric acid and salts thereof, such as malic acid, succinic acid, tartaric acid, glycolic acid, lactic acid, sodium gluconate, etc., were also found to have the effect of preventing precipitation. And its efficacy was significantly lower than that of its salt.

The scale preventive agent of the present invention comprises citric acid and / or its salt as an effective main component. Similarly, the scale prevention method is constituted by continuously adding the above scale inhibitor to white water or the like in the deinking process of used paper at a concentration of 1 to 500 ppm.

The amount of the scale inhibitor of the present invention to be added to white water or the like is 1 to 500 pp depending on the scale problem.
It is selected from the range of m (weight), but the preferable range is 5 to 20 in order to achieve the economical and complete scale preventing effect.
It is 0 ppm, more preferably 30 to 100 ppm.

The method for adding the scale preventive agent of the present invention is not particularly limited, but the scale preventive agent is evenly distributed to the thick water or the like flowing in the thickener or filter of the waste paper deinking process and the pipe. It is preferable to consider

As long as the object of the present invention is achieved, any limitation is imposed on the combined use of any one or more other components such as phosphonic acid, polymers, chelating agents and surfactants as additives. Not a thing.

The preferred additive is, as phosphonic acid,
1-hydroxyethylidene-1,1-diphosphonic acid, aminotri (methylenephosphonic acid), ethylenediaminetetra (methylenephosphonic acid), diethylenetriaminepenta (methylenephosphonic acid), 2-phosphonobutane-
1,2,4-tricarboxylic acid, particularly preferably,
1-hydroxyethylidene-1,1-diphosphonic acid and aminotri (methylenephosphonic acid). As the polymer, polyacrylic acid, polymaleic acid, acrylic acid / maleic acid copolymer, acrylic acid / itaconic acid copolymer, acrylic acid / 2-acrylamido-2-methylpropanesulfonic acid copolymer, maleic acid / Alkyl vinyl acrylate copolymer, bis (poly-2-
Sodium carboxyethyl) phosphinate and polyvinyl alcohol are preferable, and polyacrylic acid, polymaleic acid, and acrylic acid / maleic acid copolymer are particularly preferable. As the chelating agent, ethylenediaminetetraacetic acid and diethylenetriaminepentaacetic acid are preferable.

The ratio of the above additive to citric acid is usually selected from the range of 1:20 to 20: 1 by weight, but 1: 1 to 10: 1 is preferable.

[0019]

EXAMPLES The present invention will now be described in detail with reference to examples, but the present invention is not limited to the following examples.

<Evaluation of scale inhibitor> The effect of the scale inhibitor on the scale of silica / aluminum system in pulp white water in the deinking and bleaching process of waste paper was evaluated. Based on the actual analysis results of pulp white water in the deinking and bleaching process of waste paper of a certain paper manufacturing company, the dissolved components (SiO ₃ ^2- ,
Test water containing Ca ²⁺ , Al ³⁺ ) was prepared and the test conditions in Table 1 were set.

[0021]

[Table 1] Test conditions Temperature 50 ℃ Test time 16 hours Aluminum 15 ppm (as Al ³⁺ ) Calcium 50 ppm (as Ca ²⁺ ) Silica 1000 ppm (as SiO ₂ ) pH 9.5

Example 1 Citric acid was added to a polybeaker having a volume of 200 ml so as to have a predetermined concentration shown in Table 2. Next, various aqueous solutions of aluminum sulfate, calcium chloride, and No. 3 sodium metasilicate are sequentially added with stirring so that the conditions shown in Table 1 are obtained.
It was made to become. The pH of the solution was then adjusted to 9.5 by carefully adding a small amount of 0.01N hydrochloric acid and 0.01N aqueous sodium hydroxide solution with stirring. The mixed solution (test solution) was transferred together with the polybeaker to a constant temperature bath at 50 ° C. and left standing for 16 hours. After 16 hours, the poly beaker was taken out from the constant temperature bath, and the test solution was used as a quantitative filter paper No. Filtered at 6. The concentrations of various components in the filtrate were measured by ICP emission spectrometry, and the scale precipitation prevention rate (%) was calculated by [Equation 1].

Calculation Formula for Obtaining Scale Deposition Prevention Rate A: Concentration of dissolved components (SiO ₃ ²⁻ , Ca ²⁺ , Al ³⁺ ) in the filtrate after the test of the test liquid to which the scale inhibitor was added (pp
m) B: concentration of dissolved components (SiO ₃ ²⁻ , Ca ²⁺ , Al ³⁺ ) in the filtrate after the test of the test liquid containing no scale inhibitor (pp
m) C: dissolved component of the test solution (SiO ₃ ²⁻ , C before the test)
a ²⁺ , Al ³⁺ ) concentration (ppm)

It is evaluated that the larger the calculated scale deposition prevention rate (%) is, the larger the scale formation preventing effect of the scale inhibitor is. The control experiment for determining the value of B in [Formula 1] was conducted without adding the scale inhibitor.

Example 2, Comparative Examples 1 to 6 Example 1 Using Scale Inhibitor Alone
Table 2 shows the results of the same evaluations.

[0026]

[Table 2]

Examples 3 to 7 Table 3 shows examples in which citric acid and phosphonic acid were used in combination as scale inhibitors. Other test conditions, test methods, and calculation of the precipitation prevention rate were performed in exactly the same manner as in Example 1.

[0028]

[Table 3]

However, the abbreviations in Table 3 are as follows. Phosphonic acid a: aminotri (methylenephosphonic acid) Phosphonic acid b: 2-phosphonobutane-1,2,4-tricarboxylic acid

Examples 8 to 11 and Comparative Examples 7 to 8 Table 4 shows an example in which citric acid and a polymer were used together as a scale inhibitor, and a comparative example in which only the polymer was used without using citric acid. Other test conditions, test methods, and calculation of the precipitation prevention rate were performed in exactly the same manner as in Example 1.

[0031]

[Table 4]

Abbreviations in Table 4 are as follows. Polymer A: acrylic acid / maleic acid (molar ratio 3/7)
Copolymer Na (MW 5,000) Polymer B: Na bis (poly-2-carboxyethyl) phosphinate

Examples 12 to 14 Table 5 shows an example in which citric acid, phosphonic acid and a polymer were used in combination as a scale inhibitor. Other test conditions, test methods, and calculation of the precipitation prevention rate were performed in exactly the same manner as in Example 1. In addition, in Table 5, the value of the scale precipitation prevention rate is represented by SiO ₂ (%). The reason is that among the soluble components that can be scaled in test water, SiO ₃ ^2-
Is overwhelmingly high, and S is a constituent of the scale.
This is because iO ₂ is the main.

[0034]

[Table 5]

However, the abbreviations in Table 5 are as follows. Phosphonic acid c: 1-hydroxyethylidene-1,1-diphosphonic acid Polymer A: acrylic acid / maleic acid (molar ratio 3/7)
Copolymer Na (MW 5,000)

[0036]

If the scale preventive agent and the scale preventive method of the present invention are applied to the corresponding process relating to the deinking of waste paper, the scale can be continuously scaled during the steady operation without modifying or expanding the existing equipment. It is possible to prevent the generation and adhesion of slag and to ensure stable operation of each device for a long period of time, and at the same time it is freed from the work of removing scale when the device is idle, improving productivity and quality of waste paper pulp. Many effects can be obtained for improving operability, such as homogenization and reduction of energy loss.

Claims (2)

[Claims] 1. A scale inhibitor in the deinking process of waste paper, which comprises citric acid and / or a salt thereof. 2. A scale inhibitor containing citric acid and / or a salt thereof in an amount of 1 to 500 pp with respect to pulp white water.
A method for preventing scale in the deinking process of waste paper, which comprises adding m.