DE4439149A1 - Prodn. of homogeneous cellulose solns. - Google Patents

Abstract

The prodn. of a homogeneous soln. of cellulose in N-methyl-morpholine N-oxide monohydrate (NMMNO hydrate) comprises (a) enzymatic pretreatment of cellulose with 0.1-10 wt.% cellulase in aq. medium at 20-70 deg C and pH 3-10, (b) sepn. of the pretreated cellulose from the liq., and (c) stirring the sepd. cellulose in a melt with a mole ratio of (NMMNO):(water)=(1:0.8)-(1:1.2) until dissolution is complete.

Description

The invention relates to a method for producing a homogeneous cellulose solution the N-methylmorpholine-N-oxide monohydrate contains as solvent.

Dissolving cellulose in N-methylmorpholine-N-oxide (NMMNO) - Monohydrate at temperatures above its melting point of 72 ° C is known. This dissolving process is very slow because it is conditional due to the size of the solvent molecules and the high viscosity the solution the diffusion rate is very slow. By Fine grinding obtained high-resolution cellulose, high dissolving temperatures and strong shear fields accelerate the loosening of the Cel lulose. Despite the associated energy consumption, that remains Dissolution rate of the cellulose prepared in this way is insufficient.

The dissolving process is significantly improved if the Cellu loosely dispersed in about 60% aqueous NMMNO solution and that excess water above 85 ° C under vacuum and stirring and simultaneous dissolving of the cellulose is distilled off SU 994587).

It is also known to in cellulose at 20 to 70 ° C an aqueous NMMNO solution in a liquor ratio of 1:40 to 1:20 enter, homogenize in the shear field and by pressing  or centrifuging the liquor ratio to 1: 2.5 to 1: 7 to reduce. The "solid" suspension obtained after drying NEN fed to an extruder with degassing zone and at tempera tures between 75 and 120 ° C in a homogeneous solution (DD 2 26 573). The process has the disadvantage that it is only for poly mer solutions with a cellulose content of more than 16% by mass is suitable since suspensions with a liquor ratio above Flow 1: 7 and separate.

It is also known the solubility of cellulose in aqueous NMMNO solution through a hydrothermal pretreatment heights (DD 2 98 789).

Finally, it is known to use cellulose solutions in water to produce tertiary amine oxides in one step by a suspension of cellulose in the aqueous amine oxide solution continuously fed to a thin film evaporator and under vacuum and at an elevated temperature so much water evaporates until the Cellu loosely goes into solution (EP 356 419). The disadvantages of this procedure consist of a thin film evaporator once laid out is little variable in the parameters and the different Reactivity of different cellulose provenances is not always sufficient can react sufficiently. Furthermore, the shear field is one Evaporator very low and thus the appearance of gel particles cannot be excluded in the solution obtained. These gel particles, from cellulose particles swollen up in NMMNO monohydrate can cause major problems when filtering the solution to lead.

It can be deduced from all the above-mentioned processes that it is justifiable Solving times and sufficient homogeneity of the cellulose solution only can be achieved if the cellulose in aqueous, approx. 60% NMMNO solutions enters and the concentration of the Lö Solutions on monohydrate (86.7 mass% NMMNO) from this relatively high  viscous suspension / solution out.

The invention has for its object a method for Preparation of a homogeneous, N-methylmorpholine-N-oxide monohydrate as a solvent-containing cellulose solution with improved To create profitability. In particular, a procedure should for the production of a homogeneous solution of cellulose in N-methyl Morpholine-N-oxide monohydrate can be created during removal considerable amounts of water from the solution preparation put cellulose suspension in aqueous NMMNO is avoided. In particular, the dissolution of the cellulose in the solvent without significant intensification of the physical solution conditions accelerated and simplified. After all, one should Process for the production of a homogeneous cellulose solution with N-methylmorpholine-N-oxide monohydrate created as a solvent in which the dissolving process uses less energy required. Other advantages of the method according to the invention ben from the following description.

This task is invented in the aforementioned method appropriately solved in that a) cellulose at temperatures between between 20 and 70 ° C and a pH between 3 and 10 with cellula se in an amount in the range of 0.1 to 10 mass% on cellulose, enzymatically pretreated in an aqueous liquor, b) the pretreated cellulose is separated from the liquor and c) the separated cellulose into a melt of N-methylmorpholine-N-oxide and water with a molar ratio of N-methylmorpholine-N-oxide Enter water in the range of 1: 1.2 to 1: 0.8 and up to complete loosening shears.

Surprisingly, it has been shown that the resolution of Cellulose in N-methylmorpholine-N-oxide monohydrate much easier is tert when the cellulose according to the invention enzymatically is acting. The pretreated cellulose can therefore be directly in the  Melt the NMMNO monohydrate, the small excess amounts of water or NMMNO can be solved without taking the detour via an aqueous NMMNO solution with a high water content (e.g. 40% Water). In the method according to the invention Stage c) evaporate comparatively little water. Hereby and by significantly reducing the solution time for the Cel lulose results in a reduction in energy consumption and apparatus expenditure for the solution level.

According to the preferred embodiment of the invention The method is used in stage c) by concentrating the in the spinning of the cellulose spinning bath received concentrate. The concentration of the spinning bath z. B. by evaporation in a multi-stage evaporator system immediately bar up to the monohydrate or even further can be essential perform more energy-saving and for the NMMNO more gently than if the concentration of e.g. B. 60 to 87 mass% NMMNO in the solution stage from the highly viscous cellulose suspension or solution. The concentrate is expediently brought to at least 86.7% by mass NMMNO, i.e. H. concentrated to at least the monohydrate stage. A the highest possible concentration appears appropriate when the Cellulose separated off in stage b) still has considerable moisture contains parts. In this case the cellulose is converted into a Enter the molar ratio of the melt as low as possible NMMNO: H₂O is advantageously 1: <1.

Expediently, the cellulose is dissolved in step c) at a temperature in the range of 72 to 95 ° C by. The most preferred temperatures are between 80 and 90 ° C.

The cellulose suspension is preferably degassed during the Release process under vacuum. To be removed in step c) if necessary Rising small amounts of water are quickly and under Scho  solvent removed.

The pretreatment is preferably with a cellulase content carried out in the fleet in the range of 0.5 to 3.0 mass%. The preferred pretreatment temperature is in the range of 30 to 60 ° C. In general, the pretreatment is carried out with a Cellulose / water liquor ratio in the range from 1: 3 to 1:30 by. The pH is preferably in the range from 4.5 to 8. The separation of the enzymatically treated cellulose from the Fleet can e.g. B. done by pressing or centrifuging.

To increase the effectiveness of the enzymatic pretreatment, the cellulose can be sheared in before the pretreatment Whip up water. The cellulases can in this precursor the fleet may already be included, or they can only be added after Whipping up the liquor are added. Through the prepress the enzymatic activation of cellulose favors and the duration he shortened the enzymatic pretreatment. Preferably lies the duration of the enzymatic pretreatment in the range of 0.2 to 3 hours, especially in the range of 0.75 to 2.0 hours the. Commercially available cellulases, e.g. B. Rucolase from Rudolph Chemie or Roglyr 1538 from Rotta GmbH be used.

The liquor separated in stage b) is expediently carried out after adding the used enzyme back to stage a), where minimized by the cost of the enzyme. The largely Cellulose separated from the liquor is continuously or dis continuously entered into the melt of NMMNO and H₂O. The obtained homogeneous solution can be used directly for spinning into threads be used.

The invention is illustrated by the examples below and the Comparative examples explained in more detail.

Examples 1 to 6

5 kg of a spruce sulfite leaf pulp (α-cellulose content 96.5%, Cuoxam-DP 630 or 431) are in a heatable turbo solver pitched in water in a liquor ratio of 1: 5 to 1:20, heated to a temperature between 30 and 60 ° C, with stirring dilute sulfuric acid or sodium hydroxide solution to pH values between 4.5 and 8 adjusted, with 0.5 to 3 mass% enzyme, based on f-cellulose added and for a period of 0.75 to 2 Hours treated. The treatment conditions for the individual Examples are given in the table. The enzyme-containing fleet is removed from the cellulose (water content 50%) largely separated. The fleet finds after Ergän Water and enzyme losses are reused in the turbo solver.

From the table it can be seen that the degradation of the polymerization degrees under the conditions of the enzymatic pretreatment is equally low.

Example 7

In a laboratory kneader with a discharge screw at 85 ° C 888 g of NMMNO hydrate melt (molar ratio NMMNO: H₂O = 1: 0.9; Bre chungsindex at 50 ° C n = 1.4788) and 167 g of the after Example 1 cellulose obtained (water content 40%) entered. After 5 minutes of stirring under a vacuum of 20 mbar, 1 kg is obtained a homogeneous, yellow and bubble-free polymer solution  10% cellulose and 90% NMMNO monohydrate with a refractive index at 50 ° C of 1.4810.

The celluloses obtained from Examples 2 to 6 can in an analogous manner in similarly short times in homogeneous Polymer solutions are transferred.

Example 8

40 g / min according to Example 3 before treated cellulose (water content 37.5%) are continuously a twin screw on a balance extruder (DSE, screw diameter 25 mm) fed. Over a Feed pump is metered in 219 g / min amine oxide melt (molar ratio NMMNO: H₂O = 1: 0.9) in the first zone of the DSE, which is continuously on 85 ° C is heated. After mixing both components, the Mix in the degassing zone, where it is under vacuum from 15 to 20 mBar is degassed and excess water in an amount of 9 g / min is removed. With an average dwell time of 5 minutes leave 250 g / min homogeneous polymer solution (refraction index n = 1.4794 at 50 ° C) continuously the DSE. The solution be consists of 10% cellulose and 90% NMMNO hydrate (molar ratio NMMNO: H₂O = 1: 1.1).

Example 9

Analogously to Example 8, 48 g / min according to Example 6 are pretreated te cellulose (water content 37.5%) fed to the DSE at 216 g / min Amine oxide melt (molar ratio NMMNO: H₂O = 1: 0.9) mixed and degassed at the same time water drainage of 14 g / min. The ex Truder continuously 250 g / min homogeneous polymer solution (Refractive index n = 1.4813 at 50 ° C) with the composition 12% Cellulose and 88% amine oxide hydrate (molar ratio NMMNO: H₂O = 1: 1.05) taken.

Comparative Example 1

It is as in Example 7 in a laboratory kneader with discharge  snail 888 g amine oxide hydrate melt (molar ratio NMMNO: H₂O = 1: 0.9; Refractive index at 50 ° C n = 1.4788) presented at 85 ° C. Instead of the pretreated cellulose, 167 g of spruce sulfite leaf pulp (α-cellulose content 96.5%, Cuoxam-DP 630) added gene in a heatable turbosolvent in water in the fleet ver Ratio 1:15 opened and then to a water content of 40% had been drained. The mixture was vacuumed from 20 mBar stirred. It showed the following appearance

1 hour: essential parts have swelled;
6 hours: essential parts are solved;
12 hours: Scattered undissolved fiber remnants.

Comparative Example 2

The procedure was the same as in Comparative Example 1, however the pulp was not opened, but a finest meal subjected to a condux mill and dry the NMMNO-Mono hydrate melt added. The appearance of the mixture when stirred under vacuum of 20 mbar was after

1 hour: small portions have swelled;
6 hours: Significant parts are swollen, small parts are dissolved;
12 hours: Significant portions are still unsolved.

Claims (11)

1. A method for producing a homogeneous cellulose solution containing N-methylmorpholine-N-oxide monohydrate as a solvent, characterized in that

• a) cellulose at temperatures between 20 and 70 ° C. and a pH between 3 and 10 with cellulase in an amount ranging from 0.1 to 10% by mass, based on cellulose, enzymatically pretreated in an aqueous liquor,
• b) separating the pretreated cellulose from the liquor, and
• c) the separated cellulose enters a melt with a molar ratio of N-methylmorpholine-N-oxide to water in the range from 1: 1.2 to 1: 0.8 and shears until completely dissolved.

2. The method according to claim 1, characterized in that one in stage c) by concentrating the in the spinning of the Concentrate obtained cellulose solution obtained spinning bath puts. 3. The method according to claim 2, characterized in that the Concentrate to at least 86.7 mass% N-methylmorpholine-N-oxide is concentrated. 4. The method according to any one of claims 1 to 3, characterized records that step c) at a temperature in the range from 72 to 95 ° C. 5. The method according to any one of claims 1 to 4, characterized records that the cellulose suspension during the dissolving process degassed under vacuum. 6. The method according to any one of claims 1 to 5, characterized records that the pretreatment with a cellulose content in in the range of 0.5 to 3.0 mass%.   7. The method according to any one of claims 1 to 6, characterized records that one pretreatment at a temperature in the Performs range from 30 to 60 ° C. 8. The method according to any one of claims 1 to 7, characterized records that the pretreatment with a liquor ratio Cellulose / water in the range of 1: 3 to 1: 30. 9. Method according to one of claims 1 to 8, characterized records that the pretreatment at a pH in the Be range from 4.5 to 8. 10. The method according to any one of claims 1 to 9, characterized records that the cellulose before the enzymatic pretreatment hits in water under shear. 11. The method according to any one of claims 1 to 10, characterized records that one separates the fleet in stage b) after completing the of the spent enzyme in stage a).