前苏联专利SU1797630A3 Method of obtaining cellulose solutions in water-containing mixture of tertiary amineoxide

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专利摘要:

公开号:SU1797630A3
申请号:SU894614835
申请日:1989-08-15
公开日:1993-02-23
发明作者:Shtefan Tsikeli；Bernd Volshner；Diter Ajkhinger；Rajmund Yurkovich；Khajnrikh Firgo
申请人:Chemiefaser Lenzing Ag；
IPC主号:

专利说明:

The invention relates to a method for producing cellulose solutions in aqueous tertiary amine oxides from a suspension of cellulose in an aqueous solution of tertiary amine oxide by feeding tePla under reduced pressure, and also to a device for implementing the method.
A known method of obtaining solutions of cellulose, namely, that cellulose is suspended in an aqueous solution of tertiary amine oxide, which contains up to 40 wt.% Water, and heated with stirring to 90 - 120 ° C.
At the same time, the pressure is reduced to 80-150 mbar and water is removed until the cellulose dissolves. In this way, spinning solutions with 15% by weight of cellulose can be obtained.
By molding these solutions, filament films or cellulose-based molded articles, i.e. items that are currently being obtained on a large scale by the viscose method. But dope solutions of cellulose in aqueous oxides of the tertiary amine with respect to environmental compatibility have a decisive advantage over viscose 1797630 AZ
1797630 4 substance: while tertiary amine oxide can be recovered and reused during spinning, decomposition of viscose produces H2S, COS, CS2 and colloidal sulfur. These substances can be neutralized with 5 difficulty.
The above method with oxides of tertiary amines as dissolution agents has not yet been possible, since it still has a number of disadvantages.
So, in a boiler with a stirrer, because of the unfavorable ratio of the surface of the liquid to the volume of the liquid, it is only difficult to divert water, which leads to prolonged residence times of 2 to 4 hours in the boiler with the stirrer. During this time, partial splitting occurs a polymer cellulose chain that is accelerated by an increase in temperature. 20 This partial cleavage again negatively affects certain properties of the final products after the spinning process, for example, their strength, elongation, and loop strength. Further, it is known that, especially when heated above 130 ° C, severe discoloration may occur due to decomposition of the applied amine oxide. This decomposition in some compounds, such as N-methyl-30-methyl-morpholine-1M-oxide, can even occur like an explosion, with intense gas evolution, so that the solutions available in the boiler with a stirrer pose a risk from the point of view of 35 dangers.
Therefore, in a large-scale industrial implementation of the method, it would be advisable to use high pressure autoclaves as boilers with mixers, 40 which, for reasons of economy, are not applicable for continuous production.
On the other hand, in a boiler with a stirrer and without a safety device, only a periodic principle of operation is possible, as a result of which the flexibility of the method is limited, since parameters, for example, temperature and rate of exhaust steam, can be changed with difficulty. To this, another 50 should be added. Due to the high viscosity of the cellulose solutions, a lot of spinning mass remains in the boiler with a stirrer, which makes it difficult to clean the boiler and further affects the economy. 55
Closest to the proposed is a method for producing cellulose vine solutions by heating a dispersion of cellulose in an aqueous solution of tertiary amine oxide in an extruder barrel to remove water to its content in the resulting cellulose solution of 6%. The resulting solution is then extruded to produce various products.
The disadvantage of this method is the inability to achieve in the conditions used high power evaporation of water from the suspension. For this reason, a highly concentrated amino oxide with a lower water content (about 25.27 wt.%) Should be used to obtain a suspension. This has the disadvantage that the commercial amine oxide cannot be used directly, which must be brought to the desired concentration before preparing the cellulose suspension. In addition, for the preparation of a suspension of cellulose in a known method, isopropyl alcohol is required.
The closest to this device in technical essence and the achieved result is a device for producing cellulose solutions, containing a vertically mounted indirectly heated evacuated vessel, a mixing device placed in it with a central mixing shaft and mixing blades on it and an inlet and outlet nozzles for a suspension of cellulose and homogeneous cellulose solution.
Its disadvantage is poor diffusion conditions in the suspension, which negatively affects the heat transfer of the heating surface.
The aim of the invention is to simplify the method.
This goal is achieved by the fact that in the method of producing solutions of cellulose in an aqueous tertiary amine oxide comprising continuously introducing a dispersion of cellulose in a water-tertiary amine oxide mixture into a device, moving the dispersion therein while heating it under reduced pressure and partially removing water, moving the dispersion carried out in the form of a thin layer with a thickness of 1.5-15 mm, distributed on the surface and heated to 70-80 ° C, at a pressure of 100-150 bar for 3-4 minutes
The aim of the invention is also to improve the quality of the finished product.
The goal is achieved by that. that the radial distance from the mixing blades to the inner wall of the vessel is chosen not exceeding 20 mm, while the inlet pipe for the cellulose suspension is located in the upper part of the vessel, and the outlet pipe for a homogeneous cellulose solution is located in the lower part of the vessel.
1797630 6
In addition, the device is equipped with a distribution ring mounted on the mixing shaft for distributing the cellulose suspension on the inner wall of the vessel. 5
The mixing blades can be mounted on the mixing shaft with the possibility of changing the angle of their inclination to the axis of the vessel.
The distribution of a suspension of cellulose in 10 form of a layer or film over a heating surface leads to a large surface of the liquid, which facilitates the removal of water. At the same time, it makes it possible to quickly heat the suspension to the temperature required to obtain the solution. By moving above the heating surface, constant suspension mixing is achieved, which further accelerates heat transfer and mass transfer. 20
A diluent, such as ethanol, can be added to the suspension to control the relative viscosity of the solution and to influence the swelling of the pulp in the suspension. 25
Especially good mixing is achieved when the layer above the heating surface has a thickness of preferably 1.5 to 5 mm.
It is advantageous to use 30-tertiary amine M-methyl-morpholine-Y- as an oxide. oxide, preferably in aqueous solution with 40 wt. % water.
A preferred embodiment of the method according to the invention is characterized in that the suspension is brought to 70 - 80 ° C, preferably it is subjected to a pressure of from 100 mbar to 150 mbar.
It turned out to be especially favorable if the suspension was maintained in contact with a 40 heating surface for 3 to 4 minutes. This period of time, on the one hand, is sufficient to obtain a homogeneous solution, and, on the other hand, is so short that the decomposition of tertiary amine oxide and the degradation of cellulose can be substantially prevented.
Figure 1 shows a General view of a device that implements the proposed method, a longitudinal section; figure 2 is a section aa in figure 1.
The device for producing cellulose solutions contains a vertically mounted 55 heated cylindrical evacuated vessel 1, a mixing device located in it with a central mixing shaft 2, placed in the vessel 1 in bearings in the center, driven by the motor 3 and having mixing blades 4.
The inner wall 5 of the vessel 1 is mostly surrounded by a heating jacket 6 with pipes 7 and 8 for supplying and discharging the coolant,.
The device also contains inlet and outlet pipes 9 and 10 for a suspension of cellulose and a homogeneous solution of cellulose.
The mixing blades 4 are made flat and spaced radially to the axis, and the radial distance d from them to the inner wall 5. of the vessel 1 is chosen not exceeding 20 mm.
The inlet pipe 9 for the suspension of cellulose is located in the upper part of the vessel
I, and the outlet pipe 10 for a homogeneous solution is in the lower part of the vessel 1.
The device is also equipped with a mixing device mounted on the mixing shaft 2: a distribution ring 1 for distributing the cellulose suspension on the inner wall 5 of the vessel 1.
The mixing blades 4 are mounted on the mixing shaft 2 with the possibility of changing the angle and their inclination to the axis 12 of the shaft 2.
In the upper part of the vessel 1, namely above the plane of the distribution ring
II, an opening 13 is provided for evacuating the vessel 1 and for removing water vapor.
The device operates as follows.
Cellulose suspension - if necessary, with a preset temperature regime, it is continuously introduced through the inlet pipe 9 into the vessel 1, which is under reduced pressure, it is received by the distribution ring 11, distributed on the inner wall 5, and the mixing blades 4 move it along the indirectly heated inner wall 5, which serves as a heating surface, to the outlet pipe 10, at the lower end of the vessel 1, heat carriers such as water, oil or steam are used for indirect heating.
During the movement of the cellulose suspension along the indirectly heated inner wall 5, the suspension is heated, and at the same time, water is evaporated due to the reduced pressure, so that the tertiary amine oxide is concentrated until the cellulose dissolves.
Figure 2 shows in detail how the cellulose suspension in the vessel 1 is processed. The mixing shaft 2 is shown together with the mixing blades 4, the inner wall 5 and the heating jacket 6, and the direction of rotation of the mixing shaft 2 is assumed to be clockwise and shown by an arrow. The distribution of the layer or the layer thickness of the cellulose suspension is ensured by the radial distance d of the mixing blades 4 from the heated inner wall 5. On the mixing blades 4, due to rotational motion, head shock waves form from the cellulose suspension, which are shown schematically in FIG. 2. Cellulose particles circulate in these head shock waves, as shown in FIG. 2, and this movement is also transferred to the suspension layer distributed on the inner wall 5. As a result of this, continuous interlayer and intensive mixing of the suspension is ensured, which greatly favors heat transfer and mass transfer.
For the continuous implementation of the method according to the invention, it is crucial that the precipitated water vapor is diverted in countercurrent to the movement of the suspension. In addition, it is important that a sufficiently large evaporation space 14 is provided for the rapid removal of water vapor, which is available if the ratio of the length to the diameter of the cylindrical part of the vessel 1 has a value between 4 and 8.
The invention allows to obtain cellulose solutions with a concentration of up to 30 wt.% Cellulose.
The invention is explained in more detail in the following examples.
Example!. The suspension from the preliminary hydrolysis of sulfate cellulose (polymerization degree about 1400) in an aqueous solution of M-methyl-morpholin-1 ] - oxides with a water content of 40 wt.% Is adjusted to a set temperature of 70 ° C and continuously introduced in an amount of 90 kg / h through the pipe 9 to the device according to the invention. The content in the suspension of sulfate cellulose from the preliminary hydrolysis was chosen so that after evaporation of the excess water, the final concentration of cellulose was 10 wt.%.
Mixing shaft 2 is worked at a speed of 450 min ^'1, wherein the thickness distributed over the inner wall layer 5 was 15 mm. The indirectly heated inner wall 5 had an area of 0.5 m ² and was loaded with heat transfer oil so that, corresponding to the heating of the suspension (in countercurrent to the heat transfer oil), an average temperature difference of 83 ° С was obtained. A pressure of 100 mbar was set in the evaporation space 14.
At the outlet, in the pipe 10 they were able to obtain 72 kg of a homogeneous cellulose solution in 1 hour, which corresponds to a suspension time of 3 minutes in the device of the invention. The solution could be removed in a degassed form. Viscosity was 1,500 PaS.c. (measured in relative system). Microscopic examination of the solution showed that there were no undissolved particles of cellulose in the solution.
The resulting juice vapors were diverted in countercurrent at a temperature of 70 ° C and then condensed, and the distillate flow was 29 kg in 1 h.
PRI me R 2. A suspension of crushed sulfate cellulose pre-hydrolysis (polymerization degree of about 1400) in an aqueous solution of N-methyl-morpholine-J-oxide with a water content of 40 wt.% Brought to a set temperature of 80 ° C and continuously introduced in the amount of 90 kg / h through the pipe 9 to the device according to the invention. The pre-hydrolysis sulfate cellulose content was selected so that after evaporation of the excess water, a cellulose concentration of 15% by weight was obtained.
The mixing shaft 2 worked with a speed of 450 min ^-1 , and the thickness of the layer distributed over the inner wall 1 was 1.5 mm. Indirectly heated inner wall 5 had an area of 0.5 m ² and was loaded with heat transfer oil in such a way that, corresponding to heating the suspension (in countercurrent to the heat transfer oil), an average temperature difference of 112 ° C was obtained. A pressure of 150 mbar was set in the evaporation space 14.
At the outlet in the pipe 10, they were able to obtain 64 kg of a homogeneous solution in 1 / h, which was obtained in a degassed form. This mass flow corresponded to a residence time of 4 minutes.
The solution was obtained as a highly viscous mass (11.000 PaS s, measured in the relative system), and under the microscope, insoluble cellulose particles could not be detected. The solution was fed directly to a spinning machine and spun into cellulosic fibers.
The resulting juice pairs were diverted in countercurrent with a temperature of 80 ° C and then condensed, and the flow of distillate was 26 kg / 1 h.
1.0

权利要求:
Claims (4)
[1]
Claim
1. A method of obtaining solutions of cellulose in a water-containing tertiary amine oxide, comprising continuously introducing cellulose dispersions in a water-tertiary amine oxide mixture into a device, moving the dispersion therein while heating it under reduced pressure and partially removing water, characterized in that In order to simplify the method, the dispersion is transported in the form of a thin layer 1.5–15.0 mm thick, distributed on the surface and heated to a temperature of 70–80 ° C, at a pressure of 100–150 mbar for 3-4 min.
[2]
2. A device for producing solutions of cellulose in a water-containing tertiary amine oxide containing a vertically mounted indirectly heated evacuated vessel and a mixing device with a central - placed in it; · F - with the mixing shaft and mixing blades on it and the inlet and outlet nozzles for the suspension of cellulose and a homogeneous solution of cellulose, which requires that, in order to improve the quality of the finished product, the radial distance from the mixing the blades to the inner wall of the vessel are selected not exceeding 20 mm. wherein the inlet for the cellulose suspension is located in the upper part of the vessel, and the outlet for the homogeneous cellulose solution is in the lower part of the vessel.
[3]
3. The device according to claim 2, characterized in that it is equipped with a distribution ring mounted on the mixing shaft for distributing the cellulose suspension on the inner wall of the vessel.
[4]
4. The device according to claim 2, characterized in that the mixing blades are mounted on the mixing shaft with the possibility of measuring their angle of inclination to the axis of the shaft.

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

AT2036/88A|AT392972B|1988-08-16|1988-08-16|METHOD FOR PRODUCING SOLUTIONS OF CELLULOSE AND DEVICE FOR IMPLEMENTING THE METHOD|MD94-0307A| MD166C2|1988-08-16|1994-09-28|Method of cellulose solutions preparation in water tertric amine oxide and apparatus for realizing thereof|

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