DE1546239B - Process for bleaching pulp or wood pulp, woolen fabric, textile material and the like - Google Patents

Description

I 546 239.

For a long time, dithionites, especially sodium dithionite and zinc dithionite, have been reducing Used bleach. In particular, these two dithionites also become bleach in the pH range from 4 to 7 used by wood pulp and wood pulp on a large scale.

Dithionites are substances that have a high reducing power and are therefore easily oxidized. In addition, they are very sensitive to acids, so that when they are used in the aqueous phase at a pH value of 6 the attack caused by hydrogen ions, especially at elevated temperatures, is already clear and at a pH value of 4 already natural minutes a complete Destruction of the.: Dithionite takes place by hydrogen ions. This takes place when dithionites are destroyed by Wäsgerstoffionen one, even if only in traces. decreasing pH-value increasing Hydrogen sulfide evolution. Heavy metal traces for their part still promote di; Destruction of dithionites. Solid dithionites also show high sensitivity against traces of water and also tend to when stored in closed containers internal decomposition.

For these reasons, substances that give dithionites protection against destruction have been sought for a long time. Thus it is known that solid dithionite, in which an inner decomposition in sealed vessels occurs only to a small extent, can win characterized in that the dithionite solution prior to deposition of the dithionite or the already deposited dithionite 1 to 2 ° / admixed ₀ zinc dust. It is also known that an anhydrous sodium dithionite obtainable by drying can be brought into a form that is far more durable in the air, ■ if 5 to 10 parts of calcined soda or powdered or powdered sodium hydroxide are added to the dithionite containing water of crystallization before or during drying or to the dried sodium dithionite Adds calcium oxide.

From the production of zinc dithionite it is known that it is usually obtained in a very finely divided form, so that the product leads to dust nuisance and bridging. Used as a salting out agent used in the manufacture of fine, crystallized zinc dithionite, there is a tendency to Decomposition of zinc dithionite because zinc chloride is quite acidic in aqueous solution. One therefore has to Production of a non-dusting and non-bridging crystalline zinc dithionite suggested, when evaporating zinc dithionite solutions 2 to 10 percent by weight glycerol, based on the zinc dithionite contained in the solution, and about 0.2 to 0.8 percent by weight of a zinc containing pH stabilizing agent, such as zinc dust, zinc oxide, zinc carbonate or some other basic Zinc-containing compound to be added before the start of the evaporation process, the compound to be evaporated Solutions should have a pH of 3.6 to 4.4.

It is also known that weak alkali and sodium sulfite are effective stabilizers for dithionites can be used. Also alkali phosphates and alkali polyphosphates, the alkali, alkaline earth and the ammonium salt of ethylenediaminetetraacetic acid and the free ethylenediaminetetraacetic acid, furthermore, alkali citrates and alkali tetraborates have been proposed as additives to dithionites, in particular to Heavy metal ions. BJeichßfozessen for ■ '■ wood pulp in the weakly acidic area to bind, there then better bleaching effects can be achieved.

It has now been found that when bleaching in the weakly acidic pH range, preferably at pH 4 up to 6, with water-soluble dithionites these solutions have a significantly longer shelf life, if you add sparingly soluble zinc compounds at the same time or a short time before adding the dithionites to the bleaching mixture admits. Such compounds are, for. B.! Zinc oxide, zinc carbonate, basic zinc

, .'carb'onat ,. basic zinc silicate or basic zinc phosphate. Mixtures of these compounds also show an equally favorable effect. '...'

The zinc compounds are expediently added to the bleaching batch in an amount of at least 5 percent by weight, based on the dithionite to be added.
The zinc compound to be added can also be added to the dithionite to be used before it is added to the bleaching mixture. If the sparingly soluble zinc compounds, which are able to adsorb hydrogen sulfide and also sulfur dioxide, are already added to the solid dithionite, this also leads to an improvement in the odor when the solid dithionite is stored.

For the two well-known types of wood pulp, namely ordinary wood pulp, which is produced by simple sanding of wood is produced, and chemical wood pulp, in which the wood is first chopped into chips and then the wood chips with chemicals such as B. sodium sulfite, at higher temperature and pressure - softens and only then are shredded into wood pulp, the best bleaching results are achieved in the pH range from around 4.0 to 6.0 achieved because bleaching b; i pH values of 7 and above lead to yellowing of ground wood.

The bleaching of the two types of wood pulp is at

carried out about 6O ⁰ C with the addition of dithionites.

It takes on an industrial scale about ¹ L ₁ hour and gives the best results with a bleaching time of about 1 hour, provided throughout the bleaching time, the reducing agent remains in effect.

In the case of wood pulp bleaching, one material density, i.e. H. a content of dry wood pulp, of 0.5 to about 12 percent by weight, preferably from 2 to 4 percent by weight, worked, and usually about 0.5 to 1.0 percent by weight of Ditlronit is used as a bleaching agent, based on the dry wood pulp, added. That means that in one liter 20 to. 40 g of wood fibers are suspended and that on At the beginning of the bleaching, so much dithionite, either as a

- substance or as a solution, is added that at the beginning of the bleaching in one liter of 200 to 49Qiag dithionite available.

55- For this concentration of bleach, the following is the shelf life of sodium dithionite without additives and with additions of zinc compounds that are sparingly soluble in water in buffer solutions of the Michaelis buffer - Acetic acid - Sodium acetate shown. By mixing O, 2N acetic acid solution and O, 2N sodium acetate solution the pH value can be kept constant from 3.5 to 5.6, depending on the mixing ratio (G. S. Wa 1 ρ ο 1 e, Biochem. J., Vol. 105 [1914], pp. 2501 and 2521; G. Gottschalk, Z. analyt.

Chem., 167, p. 342 [1959]). The buffer is not attacked by dithionites. The durability will examined under nitrogen at 60.0 ± 0.5 ° C and the content of sodium dithionite as a function of

546 239

pH value and from the time by-titration afterwards Indigo carmine method determined (A. B i η z, iH: i: B.ertram, Angew. Chem., 18, S: 168 to 170 il905]) .. -. ·: -. :, ·

i. ιJn.Fig. 1 is: the shelf life of a solution of 400 mg sodium dithionite per liter as a function of the pH value of the buffer solution and the time is shown. The 400 mg sodium dithionite are set equal to 100%. The curve for pH = 4.5 shows, for example, that the 400 mg of sodium dithionite are destroyed after just 6 minutes. FIG. 2 shows the shelf life of the solution of 400 mg of sodium dithionite in the presence of 40 mg of basic zinc carbonate that 14% of the sodium dithionite used is still retained after 1 hour at pH = 4.5. Fig. 3 illustrates the shelf life of the solution of 400 mg of sodium dithionite in the presence of 40 mg of zinc oxide hour a further 24 ° / ₀ of the present Dithionites used.

In the F i g. 4 and 5 is the effect of increasing amounts of zinc oxide and basic zinc carbonate shown on 400 mg sodium dithionite per liter at a pH value of 4.5. There will be 20, 40, 80, 160 and 320 mg of zinc oxide or basic zinc carbonate used per liter. The curve "0" shows the behavior without addition. The figures show that increasing amounts of zinc oxide or basic zinc carbonate increase the shelf life of sodium dithionite increase increasingly.

The degradation of sodium dithionite with an addition of 20 mg of zinc oxide takes up 5%, related to 400 mg sodium dithionite, already 21 minutes, with a corresponding addition of basic zinc carbonate 16 minutes, while sodium dithionite without additives is destroyed after just 6 minutes. Surprisingly zinc acetate or other water-soluble zinc salts do not show this effect. It takes it apparently the solid phase of a sparingly soluble zinc compound, the resulting traces of hydrogen sulfide binds, while in the case of zinc acetate the solubility product would first have to be exceeded to remove sulfide ions to bind out of solution. Sulphide ions have a very damaging effect on dithionites in the weakly acidic pH range.

example 1
A textile bleach bath is prepared that

3.4 g / l sodium dithionite (90 ° / ₀ ig)

0.5 g / l zinc oxide

0.55 g / l tetrasodium salt of the ethylenediamine

tetraacetic acid (85%)
0.55 g / l sodium sulfite

contains. It is adjusted to pH 5.5 with formic acid.

In this bath, treating a wool fabric / ₀ has a whiteness of 56.4 °, 2 hours at 5O ⁰ C. After rinsing and drying the fabric thus treated has a brightness of 68.8 ° / _0th

If the bleaching is carried out for 1 hour at 75 ° C. under otherwise identical conditions, one achieves one Whiteness of 70.0%.

On the same fabric one gets with a bath that

3.4 g / l sodium dithionil (90% jg)

0.8 g / l tetrasodium salt of the ethylenediamine

tetraacetic acid (85%)
0.8 g / l sodium sulfite,

but no zinc oxide contains, -irT2 stood at 5O ⁰ C only a whiteness of 66.3%. ·
The degree of whiteness was determined with the Elrepho with R 46 T filter (Zeiss / Oberkochen). .

Example 2

The beneficial effect of the additives on the bleaching result can be seen in a comparison of bleaching from Wood pulp with sodium dithionite clearly, which with additives of poorly soluble zinc compounds or have been carried out without such additives. The test series listed in the table apply to. a wood pulp bleach with 2% consistency at 60 ° C, a pH value of 4.5 and 1 hour bleaching time, with a bleach concentration of 0.5 and 1.0% based on dry solids. The degree of whiteness the leaves obtained are determined with the Elrepho with R 46 T filter (Zeiss / Oberkochen). The unbleached one Wood pulp has a whiteness of 59.4.

table

Achieved \
0.5 ° / ₀ bleach
medium Whiteness
1.0% bleach
medium Zinc oxide, on the bleach
medium related, ° / o
0 64.0 66.4 5 64.8
65.2
64.0
64.6
65.4 68.6
69.4
66.4
68.4
69.2 10 Basic zinc carbonate,
on the bleach
moved, ° / ₀
0 5 10

Even with sodium dithionite, which is stabilized against thermal decomposition by adding small amounts of urea against spontaneous thermal decomposition when exposed to water or with small additions of macromolecular substances such as polyacrylamide or sodium polyacrylate against thermal decomposition, the beneficial effect of adding poorly soluble zinc compounds in bleaching processes in weakly acidic areas is retained .
The use of additives of sparingly soluble zinc compounds also has the advantage that discoloration and corrosion by hydrogen sulfide are avoided and, for example, in the case of wood pulp bleaching, there is no effect of hydrogen sulfide on the bronze sieve used after bleaching when vacuuming the wood pulp.

Claims (4)

Patent claims: 1. Process for bleaching pulp or wood pulp, woolen fabric, textile material and the like in the weakly acidic pH range, preferably at pH 4 to 6, with water-soluble dithionites, characterized in that at the same time or a short time before the addition of the dithionites to the bleaching mixture sparingly soluble zinc compounds are added.
2. The method according to claim 1, characterized draws that zinc oxide, zinc carbonate, basic zinc carbonate, basic zinc silicate or as additives basic zinc phosphate or mixtures of these zinc compounds can be used. 3. The method according to claim 1 and 2, characterized in that the zinc compounds in an amount of at least 5 percent by weight, based on the dithionite to be added. 4. The method according to claim 1 to 3, characterized in that the zinc compounds to the dithionite to be used are added to the bleach mixture before it is added. 1 sheet of drawings