Method for producing a cellulose suspension

Compositions: coating or plastic – Coating or plastic compositions – Carbohydrate or derivative containing

Reexamination Certificate

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C264S349000, C366S079000, C366S083000, C366S091000, C366S271000

Reexamination Certificate

active

06610134

ABSTRACT:

The invention concerns a procedure for the continuous preparation of a suspension of cellulose in aqueous N-methylmorpholine-N-oxide. The suspension can be converted into a cellulose solution by heating and processed into cellulosic molded parts such as fibers, filaments and films by deformation and regeneration.
It is prior-art to prepare a cellulose suspension in aqueous N-methylmorpholine-N-oxide by directly mixing pulverized cellulose with aqueous N-methylmorpholine-N-oxide (NMMO) . According to WO 96/33221, the cellulose is mixed in an annular layer mixer with aqueous, e.g. 75 weight percent NMMO. The formed suspension is dissolved in a separate filmtruder. A disadvantage with the annular layer mixer is that only pulverized, essentially dry cellulose can be used. If contrastingly the cellulose e.g. contains water from prior treatment, is difficult to form the layer in the mixer and makes is difficult to mix with the separately added NMMO solution, especially since the shearing field is limited in the layer mixer. Since the suspension is transported as a layer, the throughput of the device cross-section is low.
WO 94/28217 discloses a discontinuous procedure to prepare a suspension of cellulose and aqueous amine oxide. Pulverized cellulose and an amine oxide solution are mixed in a horizontal mixing chamber by a rotor with radial stirring elements. 21 minutes is indicated as the time required for batch. This method is disadvantages because two such mixing chambers must be operated since the following dissolving chamber must be continually fed. In addition, it is difficult to completely empty the mixing chamber.
The problem of the president is to create a procedure for continuous production of a suspension of cellulose in aqueous N-methylmorpholine-N-oxide without the above-cited disadvantages. The procedure allows the use of aqueous cellulose or dry cellulose, and fluctuations in the particle size and/or water contents of the used cellulose are smoothed out so that a solution with a uniform cellulose concentration arises in the following dissolving step. Furthermore, the continuous procedure is to be created in that produces a greater suspension volume in reference to the device cross-section. Finally, a procedure is to be created for the continuous production of a cellulose suspension that can immediately transition into a continuous dissolving step to form an extrudable solution. Other advantages are found in the following description.
This problem is solved according to the invention using the initially-cited procedure by the following: (a) The cellulose is conveyed through a first shearing zone in the absence of N-methylmorpholine-N-oxide and is homogenized, and (b) The homogenized cellulose is conveyed through a second shearing zone after adding enough aqueous N-methylmorpholine-N-oxide for a suspension to result with a N-methylmorpholine-N-oxide content in the liquid phase of 70-80 weight percent after mixing. The cellulose or suspension almost completely fills the available conveyance cross-section in the shearing zones.
According to the invention, the used cellulose in step (a) is first homogenized in regard to its particle size and/or water contents, i.e., local and temporal fluctuations in these two quantities are eliminated to prevent fluctuations of the cellulose concentration in the solution formed in the following step, and partially dissolved cellulose. The amount and water content of the NMMO added in step (b) is adjusted to the amount and potential water content of the used cellulose so that NMMO content in the liquid phase of the formed suspension lies within the above-cited target range of 70-80 weight percent. If for example in step (a) a dry cellulose is used, the NMMO solution used in step (b) can have a concentration in the cited range. If in step (a) aqueous cellulose is used, a more concentrated NMMO solution is added depending on the cellulose concentration of the solution to be prepared. A cellulose/NMMO/H
2
O triangle diagram can be used to easily determine the amount and concentrations of aqueous cellulose and NMMO solution to be selected. The suspension can be directly supplied to the step to form a homogenous cellulose solution. Various different procedures can be used to dissolve the cellulose. A suitable procedure is described in DE 44 41 468. In contrast to the initially-cited procedure in which the suspension is conveyed in the form of an annular layer, the entire free cross-section available for conveyance is used in the procedure according to the invention so that a maximum suspension volume can be processed per unit time and unit cross-sectional area. In addition, the high shaft speed required in the annular layer procedure is not necessary in the present procedure. To be understood as “completely full” according to the invention is that there is no continuous steam or gas phase between the entrance of the cellulose and exit of the formed suspension in contrast to the initially-cited annular layer procedure. Individual air or steam bubbles can be in the conveyed material. The more uniform cellulose suspension distribution attained in the procedure according to the invention makes it easier for the cellulose particles to completely dissolve in the dissolving step.
In a preferred embodiment of the procedure according to the invention, the cellulose is sheared and conveyed in two shearing zones by several shafts with shearing and conveying elements arranged in the direction of conveyance. The design of the shearing and conveying elements is the same in both zones. The transition of the first to the second shearing zone is only determined by the feed site of the NMMO solution and can be shifted by moving this site in an axial direction. In general, the first shearing zone in shorter than the second shearing zone. For example, the ratio of their lengths can be 1:2. The shearing effect can be attained by having the shafts rotate at different speeds. It has been shown that the cellulose dissolves better in the dissolving step when it is homogenized without NMMO. In general, 2 to 7 shafts with the corresponding shearing and conveying elements are provided for shearing and conveying the cellulose.
In one embodiment of the procedure, a cellulose is used with a water content of 20-80 weight percent in step (a). The water content of this type of cellulose that fluctuates in use is made more uniform in step (a). For the NMMO content of the created suspension to lie within the cited target range, the water content of the NMMO solution must be inversely adapted to the water content of the cellulose. Since a regenerated solution is frequently used in step (b) from an old precipitation bath, the regeneration of the precipitation bath can be tailored to the formation of an NMMO concentrate with the required concentration. The shearing provided in steps (a) and (b) also comminutes and homogenizes the cellulose particles to an extent unattainable in prior-art annular layer mixers.
In another embodiment, and essentially dry cellulose is used in step (a). In this case is well, the cellulose is homogenized in step (a) as the size of the particles become more uniform. This process is continued in the subsequent step (b). Dry cellulose can also be used together with aqueous cellulose if the water content of the latter is so high (such as 60-80%) that the target range of the NMMO content cannot be attained in the liquid phase of the suspension in step (b) by adding in NMMO monohydrate. Due to the size reduction from the shearing, the cellulose does not have to be previously ground or pulverized.
In a preferred embodiment, aqueous in NMMO is used at a molar ratio of in NMMO/H
2
O ranging from 1:1 to 1:2.2 in step (b). The most highly concentrated NMMO that is conventionally used, i.e. NMMO-MH, is used with aqueous cellulose to which water is added and/or which is thermally or enzymatically treated before it is suspended according to the invention. In addition to the homogenization of the particle size that occurs when dry cellulose is used, the water content is

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