RU2089694C1 - Method and apparatus for sulfate boiling of ground cellulose fibrous material - Google Patents

Abstract

In the continuous kraft pulping of comminuted cellulosic fibrous material (e.g. wood chips) to produce paper pulp, viscosity for a given Kappa Number is significantly increased (e.g. at least about 20%) by adding kraft white liquor to the wash recirculation loop (38-40) in a continuous digester (19). Optimum results are obtained when kraft white liquor is also added to a recirculation loop (28-30) at a central portion of the digester, so that the majority of the digester has countercurrent flow between white liquor and cellulosic material. About 5-20% of the total white liquor necessary to effect kraft cooking is introduced in the wash circulation, and about 10-20% is introduced into the central portion recirculation. The temperature in the wash zone is maintained at about 140-175 DEG C. <IMAGE>

Description

/// 2 The invention relates to a continuous process of sulphate cooking of crushed cellulosic fibrous material, for example, wood chips for the formation of Kraft pulp In conventional continuous cooking systems, white liquor was added only to the recirculation loop between the digester itself and the other components of the system and / or directly to the impregnation tank. It was recognized that if sulphate white liquor is added at several points in the process, for example (most importantly) to the central recirculation loop within a vertical boiler for continuous cooking, then in this case the potential of the bleaching agent can be significantly increased (in terms of imparting the final product large whiteness) and achieve a large economy of the whitening substances themselves. According to this technology, black liquor was removed from the belt in the interval between the upper and central sections of the digester, bearing in mind that for some part of the cooking zone, sulfate white liquor would flow towards the flow of cellulosic material. /// 2 Although the briefly mentioned improved method and system, which were sold in the world markets by Camir Inc. "from Glins Falls, New York and Camir AB from Karlstad, Sweden, gave rise to a radical improvement in many industrial plants, but there was still an urgent need for further improvement of continuous sulphate cooking processes. /// 2 Purpose of the invention on a continuous process to achieve sulphate cooking by adding some portion of sulphate white liquor to the flushing recirculation circuit at the bottom of the digester so that sulphate white liquor flows towards the flow of material for a longer hour The temperature in the washing zone is usually maintained at a level of about 140-165 ^o C. According to the invention, it is possible not only to improve the viscosity of the pulp for a specific permanganate number (in this case, this improvement is at least about 20% and usually it is at least about 30%), but it also becomes much easier to regulate the modes of operation of the digester (for example, it is easier to adjust the levels of wood chips and liquid, and the entire process takes place more clearly and evenly). Although the desired results according to the invention are achieved only by adding sulfate liquor to the wash liquid recirculation system, significantly greater results can be obtained by adding sulfate liquor to the recirculation loop of the central section and other conventional process furnaces). /// 2 In one aspect of the invention, there is provided a method for continuous sulphate cooking of ground pulp fibrous materials using a vertical digester consisting of upper, central and lower sections. The known method comprises the following steps: (a) feeding the pulverized cellulosic fibrous material in sulphate white liquor to the upper section of the digester; (b) extracting black liquor from at least one belt between the upper and lower sections of the digester; (c) recovering the liquid in the first section of the digester and its reuse in the first recirculation loop; (d) adding washing liquid to the lower section of the digester, (e) removing liquid near the lower section of the digester and reusing it in the second recirculation washing loop; (e) adding sulfate white liquor to the second recirculation loop, and the liquor reused in the digester will partially pass in this boiler vertically up and upstream of the material, while the amount of white liquor added to this second recirculation loop will be enough to increase the viscosity and the strength of the resulting pulp compared with the practice of an identical method with the same material and permanent number and to improve other parameters, but without stage "a", and (g) removal of raft pulp from the bottom section of the digester. It is recommended that step (b) be performed between the upper and central sections (F. Shchitov, Pulp and Paper Production Technology, M. Timber Industry, 1974, p. 105-107 closest analogue). The method according to the invention also includes step (a), i.e. adding sulphate white liquor to the first circulation circuit. The amount of sulphate white liquor added to the second recirculation loop is at least about 5% and preferably about 10-20% (for example 15%) of the total amount of sulphate white liquor required for sulphate cooking. It is preferred that the amount of sulphate white liquor added in step (h) is equal to at least about 10% of the total amount of sulphate white liquor required for sulphate cooking, and preferably in the range of about 10-20% /// 2 In another aspect The invention provides a device for continuous sulphate cooking of crushed cellulosic fibrous material. This device comprises: a vertical tank of a digester having an upper, central and lower section; means for introducing crushed cellulosic fibrous material in white liquor into the upper section of the digester; means for extracting black liquor from at least one belt between the upper section of the digester and the central section of the same boiler, means for removing drainage and reuse of liquid in the first circulation circuit, which is installed in the central section of the digester; means for adding flushing liquor to the lower section of the digester; means for draining and reusing liquid in the second flushing circuit of the digester; means for removing kraft pulp from the lower section of the digester and means for introducing white liquor into the second recirculation loop. It is also recommended to install and use means for introducing white liquor into the primary recirculation loop. Each recirculation loop contains an outlet pipe, a pump, a heater, and a re-entry pipe. The means for introducing white liquor into each recirculation loop contains means for introducing an alkaline solution into the drain pipe in front of the pump and heater. /// 2 In accordance with another invention, a method for continuous kraft sulfate cooking of cellulosic material. This method comprises the following steps: (a) feeding the pulverized fibrous material in sulphate white liquor to the upper section of the digester; (b) withdrawing black liquor from at least one belt between the upper and central sections of the digester; (c) removal and reuse of alkaline solution in the first circulation circuit within the central section of the digester; (d) adding sulphate white liquor to the alkaline solution in the first recirculation loop; (e) adding rinsing liquid in the lower section of the digester; (e) removal and reuse of liquid near the lower section of the digester, in the second flushing recirculation loop, (g) removal of kraft pulp from the bottom section of the digester; (h) an increase in the viscosity of the formed kraft pulp with a specific permanganate number by at least 20% compared with kraft pulp formed only as a result of performing (a) (g) inclusive, and this happens due to the addition of sulfate white liquor in the second recirculation loop. /// 2 Thus, the main objective of the invention is to further improve and improve the usual processes of continuous sulfate cooking. /// 2 In FIG. 1 is a side view illustrating a sulfate cooking apparatus of the present invention; in FIG. 2 is a graphical representation of the dependence of viscosity on permanganate number for a better comparison of continuous sulphate cooking methods according to the invention and according to already known technology; in FIG. 3 is a graphical representation identical to that shown in FIG. 2 illustrating the relationship of the viscosity / permanganate ratio versus the permanganate number. /// 2 In FIG. 1 shows, by way of example, the sulfate cooking apparatus of the invention. The completely standard components of this device include a chip hopper 10, which receives and stores chopped cellulosic fibrous material, for example, in the form of chips 11. From the chip hopper 10, the material is fed into a horizontal steaming chamber 12 and into a vertical pipe 13. In the pipeline 13, sulfate white liquor is introduced from the source 14 to turn the material into a liquid mass as it moves to the high-pressure feeder 15. From the feeder 15, it is in the sulfate b In green liquor, the material is fed to the impregnation tank 16, and then to the line 17 and to the upper section 18 of the continuous digester 19. In the upper section of the cooking kettle 19, there is a liquid / material separation device 20, which preferably should comprise a plurality of coarse grading belts with a device for removing sortable material from the belts or another similar device. The digester 19 also has a central section 21 and a lower section 22. /// 2 One or more belts 23 and a pipe 24, which are used as means for removing black liquor from, are installed in the area between the upper section 18 and the central section 21 of the digester 19. of the digester 19. As a rule, black liquor passes through the pipeline 24 to a series of expansion cyclones 25. In the central section 21 of the digester 19, there are also installed discharge belts 27, which are connected through the drain pipe to the pump 28 and heater 2 9 for re-introducing the removed liquid at the point 30 of the pipeline, and the point 30 is usually located just above the belts 27. In the lower section 22 of the digester 19, the kraft pulp is discharged into the pipeline 33 (scrapers or other similar conventional devices can also be used here), and the flushing liquor from the source 34 enters directly into the conduit 35 through which the flushing liquor is introduced. /// 2 Near the lower section of the digester 109, a washing belt 37 (in one or several rows) is installed, through which the liquid is discharged into the outlet pipe under the influence of the pump 38, then the liquid passes through the heater 39 and enters the pipe for re-introduction, from which it is introduced into the digester at point 40 just above belt 37. From point 40 up to zones 23, fluid flows towards the material being processed (as shown in Fig. 1 by arrows 42), and above belts 23 it flows in the same direction as the material. /// 2 Everything that has been described so far, as well as the main pipeline 44 for adding white sulfate liquor to the pipeline 45 and further to the first recirculation circuit in the central section 21 of the digester, is typical for the Camir MMS system (brand name of the system). According to the invention, pipe 46 is used to connect the main pipe 44 to a bypass pipe in the second flushing recirculation loop, which is formed using elements 37-40 inclusive. /// 2 In the practical implementation of the invention, a sufficient amount of sulphate white liquor is fed into line 46 to obtain significantly higher viscosity and strength of the pulp formed in this process compared to the mass obtained in the same way, but without the step of additionally introducing sulphate white liquor into pipeline 46. For example, the amount of sulfate white liquor added to pipeline 46 is at least about 5% of the total amount of sulfate liquor used to carry out the process sulphate cooking, and usually it is 10-20% (for example, about 15%). It is also recommended to add white sulfate liquor, which is known in itself and is not new, in pipeline 45, and not only in pipeline 46, and the amount of liquor added to pipeline 45 will be at least about 10% and preferably about 10-20% / // 2 Shown in FIG. 1, the device also contains an additional recirculation loop, which is located in the central section of the impregnation tank 16 and which includes a belt 48, a discharge pipe 49, a pump 50 and a pipe / point 51 for re-introduction. It is also recommended to add sulphate white liquor from source 14 along the indicated lines or points 52, 53, and 54 directly to the recirculation circuit in the impregnation tank 16 and to the recirculation pipelines from the digester to the impregnation tank 16 and from the reservoir 16 to the high pressure feeder 15 /// 2 As a rule, most of the white liquor used in the normal continuous sulphate cooking process is added to the system at points or through a 52-54 pipeline. /// 2 In FIG. 2 and 3 show graphical representations of some of the more positive results obtained according to the invention. In FIG. Figure 2 shows the curves of viscosity versus permanganate number for three different main processes. The first procedure, which is shown by line 55, refers to the conventional continuous sulphate cooking process. The second procedure, it is shown by line 56, refers to the Camir MMS system and process. Information points 57 indicate the results obtained during the implementation of the invention. During the practical implementation of the procedures, the end result of which was presented in FIG. 2, the data were maintained essentially the same all parameters except for the addition of sulfate white liquor, and the temperature in the washing zone according to the invention was raised to about 140-175 ^o C compared with about 125-130 ^o C for a conventional sulfate cooking process and the Camir process MMS. The production conditions shown in FIG. 2 and 3 results are summarized in the table. /// 2 Conditions for all were aimed at achieving the total addition of white liquor EA (L) in the form of 18% wood-based NaOH. /// 2 According to the implementation of the invention, the addition of white liquor at point 53 is usually about 50-60% of the total amount of white liquor introduced, and at point 54 this amount is about 10-20% (about 10-20% in pipeline 45 and about 5-20% in the pipeline) 46. /// 2 According to the invention, not only an increase in the viscosity of the final product (paper pulp) is achieved, but also a higher strength for a specific permanganate product (meaning tearing, tensile and punching strengths) ) Moreover, what was unexpected, in this case, the conditions of use and control of the entire paper cooking system are greatly facilitated. This alone is the key to the widespread use of the invention. /// 2 The achievement of the positive results according to the invention does not depend on the inclusion of the impregnation tank 16, and also on the fact whether or not white liquor is added to the pipeline 45. However, it should be borne in mind that optimal results are achieved even in that case when the impregnation tank 16 is used and when white liquor is additionally introduced into the conduit 45. /// 2 Therefore, it can be seen that the invention provides an improved method and apparatus for continuous sulphate pulping of cellulosic material. Although the invention has been described and illustrated with respect to the most preferred embodiment, the same principles are quite applicable to a hydraulic digester with a single digester and to steam / liquid digestion boilers with one or two digester vessels. For all specialists in this field it is clear that the invention allows numerous modifications within the scope of the invention, and the scope of the invention is set forth in the attached claims and includes all equivalent structures and procedures.

Claims (9)

1. The method of continuous sulphate cooking of crushed cellulosic fibrous material using a vertical digester having an upper, lower and central sections, which serves pulverized pulp fibrous material located in sulphate white liquor, in the upper section of the digester, black liquor is extracted from at least at least one belt between the upper and central sections of the digester, in the central section of the digester, the liquid is withdrawn and recycled in the recirculation loop, rinse is added liquid in the lower section of the digester, kraft pulp is removed from the lower section of the digester, characterized in that the liquid is withdrawn from the lower section of the digester and recycle it in the recirculation rinse circuit, sulfate white liquor is added to the recirculation rinse during recirculation, moreover the recirculated liquor in the digester is raised countercurrently with respect to the material flow, the amount of white liquor added to the washing circuit for recirculation is at least 5 % by weight of the total sulfate liquor, and the temperature is maintained in the range 140-175 ^{° C.} to obtain a pulp with a higher viscosity, white liquor is added to the recirculation loop during liquid recirculation, and the recirculated liquor is raised in the digester countercurrently relative to the material flow.  2. The method according to p. 1, characterized in that 5 to 20% by weight of the total sulphate liquor is added during the addition of sulphate white liquor to the washing recirculation loop. 3. The method according to p. 1, characterized in that the supply of crushed cellulosic fibrous material to the upper section of the digester, the extraction of black liquor, the discharge and recirculation of the liquid in the recirculation circuit in the Central section of the digester, the addition of washing liquid in the lower section of the digester, the outlet Kraft pulp from the lower section of the digester, the liquid is drained from the lower section of the digester, and it is recycled in the washing recirculation loop with the addition of more than 50% of the total sulfate white liquor ache comminuted cellulosic fibrous material in the top section of the digester, and the temperature by adding kraft white liquor to the wash recirculation loop is maintained in the range of 160 175 ^o C.  4. The method according to p. 1, characterized in that the impregnation tank and the pipeline connecting the impregnation tank and the digester are used; more than 50% by weight of the total sulphate white liquor is added to the upper section of the digester when the pulped fiber material is fed into the pipeline and into the impregnation tank, 5 20% by weight of the total sulfate white liquor is added when adding sulfate white liquor to the washing recirculation loop and 10 20% by weight of the total sulfate white liquor is added at the addition of white liquor in the recirculation circuit.  5. The method according to p. 1, characterized in that in the recirculation loop and the washing recirculation loop of the liquid before pumping it back into the digester, it is pumped and heated, and the addition of white liquor to the washing recirculation loop and the recirculation loop is carried out before pumping the recirculated liquid and heating it .  6. A device for continuous sulphate cooking of crushed cellulosic fibrous material, comprising a vertical digester having an upper, lower and central section, means for introducing crushed cellulosic fibrous material in white liquor into the upper section of the digester, means for extracting black liquor from at least one belt located between the upper section of the digester and its central section, means for draining and recirculating the liquid in the recirculation loop radiation, means for adding washing liquid to the lower section of the digester, means for draining Kraft pulp from the lower section of the digester, characterized in that it has means adjacent to the lower section of the digester, for draining and recirculating the liquid in the washing counter recirculation and means for introducing white liquor into the recirculation flushing circuit.  7. The device according to p. 6, characterized in that it has means for introducing white liquor into the recirculation loop.  8. The device according to p. 6, characterized in that the recirculation loop and the flushing recirculation loop each contains a drain pipe, a pump, a heater and a pipe for re-introducing, and means for introducing white liquor into the recirculation loop and the flushing recirculation loop contain means for introducing liquor into the drain pipe in front of the pump and heater.  9. The device according to p. 6, characterized in that it has a vertical impregnation tank having upper and lower sections, and a pipe for connecting the lower section of the impregnation tank and the upper section of the digester, and there is a recirculation loop for recirculating liquid from the upper section of the digester into the lower section of the impregnation tank, and in the central section of the impregnation tank there are means for draining and recirculating the liquid into an additional recirculation circuit and means for introducing white of liquor in additional recirculation loop.

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