DE19703360A1 - Use of alkyl polyglycosides to deink waste paper - Google Patents

Abstract

Alkylpolyglycosides having the general formula (I): R(G)x, in which R stands for a linear, saturated alkyl radical with 8 to 22 C atoms and (G)x for a glycoside or oligoglycoside radical with an oligomerisation degree x from 1 to 10, are particularly suitable for deinking wastepaper.

Description

Field of the Invention

The invention relates to the use of alkyl polyglycosides for deinking Waste paper.

State of the art

Waste paper is now used in large quantities to produce newspaper and hygienic paper, for example. Brightness and color are quality features for these types of paper. In order to achieve these quality features, the printing inks must be removed from the printed waste paper. This is usually done using so-called deinking processes. These processes are carried out in technically customary plants for processing waste paper, which are provided with additional facilities for separating the detached ink particles. There are two important steps:

• (1) The opening of the waste paper: Among them is the process of defibrating the Understand waste paper. It can be added, for example, in an aqueous medium mechanical energy (stirring) can be induced. The defibration will accompany detachment of the ink particles. These particles break up into very small particles  ne particles with a particle size of 0.1 to 1,000 microns and are in fine disper form. When opened, a paper stock suspension is in the form of a gray paper pulp obtained.
• (2) The removal of the detached ink particles from the paper Fabric suspension: This step of the deinking process can be done by washing out or done by flotation. The flota is of particular importance tion deinking process. Ink collectors in Central Europe are Usually fatty acids or soaps are used.

In modern processing plants, additional ver steps, such as multi-stage flotation, dispersion, bleaching stages, thickening and water purification integrated (see e.g. Wochenblatt für Papierfabrikation 1996 (21) Pages 929 to 935).

Waste paper is also increasingly used for the production of higher quality Pa Types of paper, such as graphic papers and SC paper, or as a substitute for pulp turns. In addition to brightness and color, the Purity of the deinked substance. As a measure of the purity, the number and specific area of dirt spots can be viewed.

To use larger menus for ecological and economic reasons of waste paper in the production of higher quality paper types, the dirt spot removal with the known collector systems is sufficient in many However, cases do not fail.

A number of interfaces are available as flotation collectors for deinking waste paper tive substances known from the patent literature. In addition to fatty acids and soaps who the predominantly alkoxylated fatty alcohols or fatty acid polyglycol ethers  set. In addition, other nonionic compounds are very under different chemical structure.

The use of alkyl polyglycosides for deinking waste paper and in particular for removing dirt spots from waste paper is not yet known from the literature. Although the use of formulations containing alkyl polyglycosides for general or special paper-technical applications is generally known, for example their suitability

• - for paper production (from WO 92/2284),
• as an additive in papermaking (DE-A-40 26 617),
• - for coatings on heat-sensitive printing papers (Chemical Abstracts 114: 145733),
• - for the production of lime suspensions in paper production (DE 3 90 112),
• - For the production of tissue paper with improved softness (EP-A-347 177 and EP-A-347 176),
• - As a drying aid and as a coating agent for paper (WO 89/2907),
• - As an anti-agglomeration aid for the paper industry (WO 89/2912),

however, given this prior art, the subject of the present is neither described nor suggested the invention.

Description of the invention

The object of the present invention was to create new collectors or collectors to make available that have a high flotative discharge of Allow dirt spots.  

Surprisingly, it was found that alkyl polyglycosides belonging to the class of count nonionic surfactants, alone or in combination with other collectors are suitable for permanently removing dirt spots from waste paper.

The present invention therefore relates to the use of alkyl polyglycosides (I)

R (G) _x (1)

where R is a linear, saturated alkyl radical with 8 to 22 carbon atoms and (G) _{x is} a glycoside or oligoglycoside radical with a degree of oligomerization x of 1 to 10, for deinking waste paper.

Alkyl glycosides of the indicated formula (1) have long been known surfaces active substances consisting of sugars and aliphatic, primary alcohols with 8 to 22 C atoms can be produced with acetalization. As a sugar component (glycose) come preferably glucose, but also fructose, mannose, galactose, Te loose, gulose, allose, old rose, idose, arabinose, xylose, lyxose, libose and gemi of it in question.

Preferred because of the easy accessibility and the good application properties are the acetalization products of glucose with fatty alcohols available for example from natural fats and oils by known methods are, especially with linear, primary, saturated and unsaturated fatty alcohol len with 8 to 22 carbon atoms.

Regarding the glycoside residue (G) _x , both monoglycosides (x = 1), in which a sugar residue is glycosidically linked to the fatty alcohol, and oligomeric glycosides with a degree of oligomerization x = 2 to 10 are suitable. As a rule, mixtures of mono- and oligoglycosides are present.

Those alkyl glycosides (1) in which R is an alkyl group having 8 to 22 C atoms and (G) _{x is} a glycoside or oligoglycoside residue with a degree of oligomerization x = 1 to 10 are particularly suitable. R is very particularly preferably an alkyl group having 8 to 14 carbon atoms. The average degree of oligomerization is preferably in the range from 1 to 1.5.

In many cases, the extent of the removal of printing inks from printed waste paper can be increased if the alkyl polyglycosides according to the invention in combination with, for example, C _10-22 fatty acids or their alkali metal or alkaline earth metal salts, ethoxylated C _6-22 alkyl alcohols, ethoxylated alkylphenols, cationic polymers, e.g. B. polydimethylaminomethacrylate and / or copolymers, a set. The total amount of these optional components is between 0.05 and 1.0% by weight, based on air-dry paper stock.

In the presence of the alkyl polyglycosides to be used according to the invention, Printing inks, for example newspaper printing inks, letterpress inks, offset printing inks, gravure inks, flexographic inks, laser inks and / or packaging gravure inks from printed waste paper, for example Newspapers, magazines, computer papers, magazines, brochures, forms, Remove phone books and / or catalogs. In the presence of the fiction according to the alkyl polyglycoside deinked waste papers to be used stand out due to high degrees of whiteness and good dirt spot removal.

The following examples serve to explain the invention and are not to be understood restrictively.

Examples Substances used

Glucopon 215:
50% aqueous solution of alkyl polyglycosides based on a native C _8-10 fatty alcohol ("Glucopon 215 CS UP"; Henkel KGaA, Düsseldorf).

Glucopon 600:
50% aqueous dispersion of alkyl polyglycosides based on a native C _12-14 fatty alcohol ("Glucopon 600 CS UP / LIH"; Henkel KGaA, Düsseldorf).

SP 85/61:
1225 g (7.9 mol) of preliminary fatty acid (60% Cg, 35% C ₁₀ , acid number = 361.9) were introduced. The mixture was then heated to 150 ° with stirring and 1770 g (7.5 mol based on epoxy-O) of soybean oil epoxide (epoxy-O = 6.78) were added within 1 hour. After the addition had ended, the temperature was slowly increased to 170 ° C. and after 2 hours (epoxy-O <0.15%), the mixture was distilled in vacuo at 200 ° C. (469 g distillate). The end product was a yellow, clear polyol (viscosity = 5550 mPas; 20 ° C, OH number = 105, saponification number = 236, acid number = 3.1). 423 g (39 parts) of this reaction product of soybean oil epoxide with forerun fatty acid were mixed with 6.9 g of a 30% solution of potassium hydroxide in methanol and heated to 100 ° C. in an autoclave. At this temperature, the traces of methanol were removed by evacuating 5 times and venting with nitrogen as a protective gas. After the reaction temperature had been raised to 150 ° C., a total of 660 g (61 parts) of ethylene oxide were metered in in portions so that the pressure in the reactor did not exceed 5 bar. After the reaction had ended, the mixture was cooled to 80 to 100 ° C. and evacuated for about 15 minutes to remove traces of ethylene oxide and neutralized with lactic acid. The product obtained, SP 85/61, was a clear, yellow liquid (OH number = 54.7).

example 1

Paper:
artificial office waste mixture of:
35% copy paper
35% laser paper (HP-Laserjet II / III)
30% merchandise (Hermes, sorted)
All papers were naturally aged.

Pulper:
Paper quantity: 110 g (air dry)
Water: 0.44 l, 7 ° dH
Time: 15 min.
Temperature: 45 ° C.

Chemicals:

Unstuck:
Water: 2.54 l, 7 ° dH
Time: 5 min.
Temperature: 45 ° C
Fabric density: 4%
RPM: 1865

Bütte:
Water: 2.54 l, 7 ° dH
Time: 90 min.
Temperature: 45 ° C

Fabric density: 4%
Flotation:
Denver cell: 91
Fabric density: 1%
Fabric temp .: 45 ° C
Duration: 8 min.

Collectors used:
Collector B1 (for comparison): stearic acid ("Olimor 4020"; Fa. Henkel KGaA, Düsseldorf)
Collector A1:
Glucopon 600
Collector A2:
70% SP 85/61
30% Glucopon 600.

A3 collector:
95% SP 85/61
5% Glucopon 600.

Example 1.1

The compound of the invention was Glucopon 600 alone and in Kombinati used with SP 85/61. For comparison, stearic acid (collector B1) was used turns. The collectors were each used in the pulper in an alkaline formulation. The dosage in percent is based on the waste paper used.  

The results of the white point and the shear point measurement after flotation are in Table 1 summarized. When using the collectors A1-A3 according to the invention the dirt spot area became significantly stronger when using the comparison collector's B1 reduced.

Pulp dosage (alkaline recipe)

Pulp dosage (alkaline recipe)

Example 1.2

The compound of the invention was again Glucopon 600 alone and in Combination with SP 85/61 used. For comparison, stearic acid (collector B1) used. The collectors were each in the pulper with a reduced recipe used. The dosage in percent is based on the waste paper used.

The results of the white and dirt spot measurement after flotation are in Table 2 summarized. When using the collectors A1-A3 according to the invention the dirt spot area became significantly stronger than when using the comparison collector reduced.  

Pulp dosage (reduced formula)

Pulp dosage (reduced formula)

Example 1.3

Glucopon 600 in combination with SP 85/61 used. For comparison, stearic acid (collector B1) was used. The Collectors were collected in the cell immediately before the flotation without further chemi kalien ("neutral" recipe) used. The dosage in percent is based on the put used paper covered.

The results of the white and dirt spot measurement after flotation are in Table 3 summarized. The mixture containing Glucopon 600 reduced that Dirt spot area significantly stronger than the comparison collector.  

Cell dosing at neutral pH

Cell dosing at neutral pH

Example 2

Collectors used:
B2 collector (for comparison): SP 85/61
A4 collector: Glucopon 215
A5 collector: 90% SP 85/61 + 10% Glucopon 600
Collector A6: 85% SP 85/61 + 15% Glucopon 600
Collector A7: Glucopon 600
Collector A8: 90% SP 85/61 + 10% Glucopon 600
Collector A9: 85% SP 85/61 + 15% Glucopon 600

Test conditions:
Paper: 100% office waste (merchandise)

Crack open:
Paper quantity: 110 g
Water: 0.44 l, 7 ° dH
Time: 15 min.
Temperature: 45 ° C
Fabric density: 20%

Unstuck:
Water: 2.54 l, 7 ° dH
Time: 5 min.
Temperature: 45 ° C
Fabric density: 4%

Chemicals:
Alkaline recipe:
Water glass: 1.0%
H ₂ O ₂ (100%): 0.38%
NaOH (100%): 0.38%
Neutral recipe:
without chemicals

Collector / surfactant:
0.15% total
Adding pulper

Bütte:
Exposure time: 90 min.
Exposure temperature: 45 ° C

Flotation:
Volume: 91
Fabric density: 1%
Fabric temp .: 45 ° C
Duration: 8 min.

Example 2.1

Glucopon 600 and Glucopon 215 were used as the compound according to the invention (alone and in combination) used. For comparison, it became a non-ionic Used collector. The collectors were each in the pulper for alkaline recipes tur used. The dosage in percent is based on the waste paper used.  

The results of the white measurement after flotation are summarized in Table 4 sums up. Mixtures containing alkyl polyglycosides (APG) increase the whiteness significantly stronger than the comparison collector.

Example 2.2

By using APG and APG mixtures, the dirt spot area was also greatly reduced. This is shown in Table 5 using the example of neutral flotation for the important dirt spot size range from 200 to 250 µm.

Flotation of office waste dealer mix (alkaline recipe)

Flotation of office waste dealer mix (alkaline recipe)

Flotation of offlce waste dealer mix (neutral recipe)

Flotation of offlce waste dealer mix (neutral recipe)

Claims (4)

1. Use of alkyl polyglycosides of the general formula (1)
R (G) _x (I)
wherein R is a linear, saturated alkyl radical with 8 to 22 carbon atoms and (G) _x a glycoside or oligoglycoside radical with a degree of oligomerization x of 1 to 10, for deinking waste paper. 2. Use according to claim 1, wherein R is an alkyl group having 8-14 carbon atoms is. 3. Use according to claim 1 or 2, wherein x is in the range of 1 to 1.5. 4. Use according to one of claims 1 to 3, wherein G is a glucoside residue.