SU937490A1 - Process for bleaching kaolin - Google Patents

Description

(Sl) BLEACHING METHOD .KAOLINA

one

This invention relates to kaolin bleaching technology used primarily in papermaking.

A known method of bleaching kaolin with a bleaching compound such as hydrogen peroxide, perchloric water or peracetic acid with pretreatment of kaolin with urea 1}

Urea in this case contributes to the swelling of the crystal lattice of kaolinite, but does not affect the coloring of kaolin impurities.

A known method of bleaching kaolin by treating its aqueous suspension with a sulfur-containing compound with sodium hydrosulfite in an acidic medium at a pH of about 2-5 is created by introducing mineral acids into the suspension of kaolin, followed by filtering the suspension, washing and drying the bleached kaolin 2.

The disadvantage of this method is that it does not provide a sufficiently high degree of whiteness of kaolin. In addition, sodium hydrosulfite readily decomposes, which necessitates an increase in its consumption. At the same time, its overdose causes an undesirable effect of darkening of kaolin and the deterioration of its optical properties. Due to this

10 instability of aqueous solutions the introduction of sodium hydrosulfite into kaolin suspension should be carried out only in a dry form.

The purpose of the invention is to increase the kaolin's positiveness in the process of its bleaching.

This goal is achieved by the method of bleaching kaolin by treating it with an aqueous suspension with dimethiourea oxide as a sulfur-containing compound, taken in an amount of 0.1-1.0 / by weight of absolutely dry kaolin, at pH 2-8. The proposed method allows the whiteness of kaolin to be increased by 0, as compared with the known solution, at the same pH values. This is provided mainly by estimating that thiourea dioxide CH OriNi2 S, which has a greater redox potential than sodium hydrosulfite, contributes to a deeper iron deficiency.

kaolin and increase the effectiveness of bleaching.

In addition, thiourea dioxide is more stable during transport and storage. Its aqueous solutions are stable, therefore, when bleaching it into a suspension of kaolin, it can be introduced both in a dry form and in the form of a solution.

The method is carried out as follows.

Thiourea dioxide in an amount of 0.1-1.0% by weight of absolutely dry kaolin is added to the aqueous suspension of kaolin with stirring. An increase in the consumption of this reagent over 1% is inexpedient, since a further increase in the whiteness of kaolin at high costs is insignificant, and overdosing it can darken the kaolin. When the consumption of thiourea dioxide is less than 0.1%, the whiteness of kaolin during bleaching increases only to a small extent by 0.3-0.5% relative to the initial whiteness of kaolin.

The alkaline medium, if necessary, can be created with hydroxide or sodium carbonate, and can also be maintained with trisodium phosphate.

Mineral acids, preferably sulfuric acid, are introduced into the aqueous suspension of kaolin to create an acidic environment. At the same time, the pH value should not be less than 2, since in this case not only the oxides of iron contaminating kaolin dissolve, but also the kaolinite crystals themselves are partially destroyed, as a result of which its technological properties change.

The bleaching process is carried out at 20 ° C. The use of elevated temperatures in the proposed method is desirable in the bleaching of kaolin 8 in an acidic environment in order to increase the efficiency of thiourea dioxide.

The duration of the kaolin treatment process at the proposed city with the initial whiteness of 77.3 and.

Example 1. To the aqueous suspension of kaolin from the Glukhovetsky deposit, thiourea dioxide is added in dry form with stirring. Using trisodium phosphate, the pH of the suspension is maintained at 8. Four experiments are carried out in parallel, in each of which the thiourea dioxide consumption, respectively, is: 0.3; 0.5; 0.7; 1.0 by weight of absolutely dry kaolin. The bleaching process is carried out at 20 ° C for 10 minutes. Then the kaolin is filtered off, washed with distilled water and dried at.

Example 2. Sulfuric acid is added to a suspension of kaolin from the Glukhovetsky deposit with stirring to pH 3, and then thiourea dioxide is introduced. Its consumption in each of the parallel experiments, respectively, is, °,: 0.1; 0.3; 0.5; 0.7; 1.0 by weight of absolutely dry kaolin. The bleaching process is carried out for 30 minutes. Then the kaolin is filtered off, washed with distilled water and dried at 105 ° C.

Example 3 (by a known method). Sodium hydrosulfite is added to the aqueous suspension of kaolin from the Glukhovetsky deposit in a dry form, the consumption of which in each of the parallel experiments is, respectively, 0.5; 0.7; 1.0 by weight of absolutely dry kaolin. The bleaching process is carried out analogously to example 1 under the same conditions at pH 8.

Example A. Under the conditions described in example 2, kaolin from the Glukhovetsky deposit at pH 3 was bleached with sodium hydrosulfite, the consumption of which in each of the parallel experiments is,%: 0.5; 0.7; 1.0 by weight of absolutely dry kaolin. So it is 5-30 minutes. Then the kaolin is filtered off and washed with water to remove the iron compounds that have gone into solution. Next, kaolin is served either for drying, or in the form of an aqueous suspension, directly into the process stream of paper production. Samples of Glukhovetsky and Chalganovsky products are used for bleaching.

Example 5- The kaolin of the Chalganovsky deposit is bleached as in Example 1, but at pH 6, for 15 minutes.

Example 6. Kaolin was bleached similarly to Example 2, but at pH 2 and 90 ° C.

Examples 7 and 8. Carried out by a known method analogously to the described examples 3 and, respectively, at pH 6 and -2.

Kaolin Hilukhoveikogo iestoromdemi

Data on the whiteness of bleached kaolin according to the described examples are presented in the table.

Increasing the final whiteness of kaolin in the bleaching process leads to an improvement in the optical properties of the paper made with it. This, in turn, allows reducing the consumption of expensive optically bleaching substances in the production of high-quality types of paper and the cost of whitewashing of fibrous semi-finished products.

Claims (2)

Claim 1. A method of whitening kaolin, comprising treating its aqueous suspension with a sulfur-containing compound, characterized in that, in order to increase the whiteness of kaolin, thiourea dioxide is used as a sulfur-containing compound. 2. The method of pop. 1, characterized in that the thiourea dioxide is taken in an amount of 0.1-1.0% by weight of absolutely dry kaolin 45 and the processing process is carried out at a pH of 2-8.