RU2042003C1 - Method of preparing white lye for sulfate cellulose production - Google Patents

Abstract

FIELD: cellulose industry. SUBSTANCE: for preparing white lye semiproduct of soda ash production - soda-potash liquid which is causticized preliminary and clarified is used as sodium-containing reagent. The latter is added to the clarified and causticized white lye. EFFECT: improved method of white lye preparing. 1 tbl

Description

 The invention relates to the technology of pulp and paper production and can be used in the regeneration of chemicals from spent black liquor from sulphate pulping for the preparation of white liquor used to produce sulphate pulp.

A known method of preparing white liquor by regeneration of black liquor by pre-evaporation, burning, dissolving the resulting melt with the formation of green liquor, introducing into the last fresh soda ash, subsequent caustization and clarification of the resulting white liquor [1]
In this method, to compensate for alkali losses in the technology of black liquor regeneration and increase the degree of causticization of green liquor, soda ash is used, which is introduced into green liquor at the causticization stage, which ultimately provides the required quality of white liquor.

 The disadvantage of this method is that when causticizing green liquor after introducing soda ash into it, a large amount of lime sludge is formed, as well as loss of caustic soda and unreacted lime with this sludge. In addition, soda ash is an expensive and scarce product.

Closest to the claimed method in technical essence and the achieved result is a method of preparing a sulfate cooking liquor, including burning spent black liquor, dissolving the melt to produce green liquor, causticizing the green liquor, introducing sulfur-containing reagent of sodium-containing reagent of sulfur-containing alkaline waste of ethylene production into the causticized green liquor and the subsequent white liquor clarification [2]
The disadvantage of this prototype method is that the introduction into the causticized green liquor is not subjected to causticization of a sodium-containing reagent, which is used as sulfur-containing waste from ethylene production and containing more than 30 g / l of soda ash (sodium carbonate), will inevitably reduce the percentage of caustization of causticized green liquor and will lead to an increase in the percentage of sodium carbonate in the finished white liquor, which will increase the percentage of inert impurities in the white liquor and, consequently flax, will worsen its quality.

 The use of sulfur-containing alkaline wastes of ethylene production as a sodium-containing reagent, introduced into the causticized liquor before its clarification, causes technological difficulties, since this reagent contains polymer hydrocarbons that will complicate the operation of the equipment of the white liquor clarification unit. Therefore, before using these wastes, it is necessary to purify them from polymer hydrocarbons, which complicates and increases the cost of obtaining white liquor.

 The purpose of the invention is improving the quality of white liquor by increasing the degree of caustization of white liquor and reducing inert impurities in it, as well as reducing the cost of the process for preparing white liquor for pulping due to the use of a cheap sodium-containing reagent in this process.

 This goal is achieved by the fact that in the method of preparing white liquor to obtain sulfate cellulose, including burning spent black liquor, dissolving the resulting melt to form green liquor, caustizing it to form white liquor, introducing a sodium-containing reagent into the causticized white liquor and clarifying the latter, as The sodium-containing reagent uses a semi-product of the production of soda ash soda-paste solution, which is pre-causticized and clarified, and it is introduced in the kaustizirovanny clarified white liquor.

 Carrying out a separate caustization of the sodium-containing reagent along with the main process of causticizing green liquor, clarifying it and mixing it with white liquor after clarifying the latter makes it possible to increase the percentage of causticization of the white finished liquor and improve its quality due to the fact that, when the caustization of the sodium-containing reagent is separately caustic, the sodium and potassium carbonates contained in it, sodium hydroxide and potassium hydroxide are formed, which are the main active part (component) of white liquor and provide a decrease in inert impurities her in white liquor ready for pulping compared to the prototype.

 The use of a soda mixture as a sodium-containing reagent in the production of soda due to the potassium carbonate contained in the intermediate in the production of soda (except for the main amount of sodium carbonate), which is an additional component that increases the active part of white liquor, can increase the degree of caustization, which improves the quality of white liquor by Compared to the prototype.

 The use of this intermediate allows to increase the percentage of causticization of white liquor to exclude reagents containing polymeric hydrocarbons that complicate the pulping process, which will stick to the walls of the equipment and pipelines of the white liquor clarification unit, and also due to the low cost of the intermediate product of soda production, reduce the cost of the white liquor production process for cooking sulfate pulp compared with the prototype.

 As a result of comparing the proposed method with the prototype, it follows that the claimed method differs from the latter in that it employs a semi-product of production of soda ash soda-paste solution, which is pre-causticized and clarified, and then introduced into clarified causticized white liquor.

 Thus, the proposed method for the preparation of white liquor to obtain sulfate cellulose meets the criteria of the invention of "novelty."

 A comparison of the claimed method with other technical solutions known in the art showed that it is known to use soda ash as a sodium-containing reagent, the qualitative composition of which is similar to the intermediate product of soda production (with different quantitative compositions) used in the inventive method.

 However, in calcined soda, the active component in the production of white liquor is only sodium carbonate, while in the semi-product of soda production soda-potash solution, in addition to sodium carbonate, this component is also potassium carbonate, which, when causticized, forms potassium hydroxide, which increases the active part of white liquor.

 In addition, soda-paste solution is much cheaper and less scarce than soda, which, when regenerating black liquor in the known method, is introduced into green liquor before its causticization.

 Therefore, the claimed technical solution follows in an unobvious manner from the known technical solutions in the art, which allows us to conclude that its criterion of "inventive step".

 The proposed method for the preparation of white liquor to obtain sulfate pulp is as follows.

Spent black liquor obtained from sulphate pulping, after evaporation is burned in a soda recovery boiler, the resulting melt is dissolved in weak white liquor with a total alkali concentration of 20-30 g / dm ³ units. Na ₂ O to obtain green liquor concentration of 115-125 g / DM ³ units Na ₂ O and last kaustiziruyut in kaustizatorah for 90 min at 96-98 ° ^C under constant stirring. For caustization, milk of lime with a content of active CaO of 85-87 g / l is fed into the causticizer. The resulting reaction mixture is pumped to clarifiers, where the sedimentation of lime mud, and settled white strong liquor with a concentration of total alkalinity of 110-120 g / dm ³ units. Na ₂ O, active alkalinity of 100-110 g / DM ³ units Na ₂ O is decanted into a white clarified liquor tank.

Sodium-containing reagent, which is used as a soda-potash solution with a concentration of total alkalinity of 200-300 g / DM ³ units Na ₂ O, with a density of 1,320-1,327 g / cm ^{3 is} diluted with water or a weak white liquor with a concentration of total alkalinity of 20-30 g / dm ³ units. Na ₂ O. The diluted soda-liquor solution is causticized under the same conditions as green liquor, and then clarified. The resulting clarified liquor (solution) is added to the main stream of clarified white liquor in an amount of 20 vol. The introduction into the clarified white liquor of causticized and clarified sodium-containing reagent in the specified amount provides the required concentration of the second active component of the finished white liquor of sodium sulfide, which is also necessary for the pulping process.

 A decrease in the amount of added sodium-containing reagent soda paste solution (below 20 vol.) Leads to a decrease in the degree of caustization of the finished white liquor for cooking sulfate pulp. An increase in the amount of added sodium-containing reagent will reduce the sulfide content of the finished white liquor below the acceptable limit. The prepared white liquor is used for cooking sulphate pulp.

PRI me R. 500 ml of green liquor containing in units Na ₂ O, g / dm ³ : soda ash 73, sodium sulfide 36, sodium hydroxide 10, sodium sulfate 3.1, placed in a heat-resistant flask with reflux condenser, causticized with slaked lime slurry with an active CaO content of 85 g / l and kept at a temperature of 98 ^about With continuous stirring for 120 min on a magnetic stirrer with a temperature controller. The consumption of slaked lime per 500 ml of green liquor was 41 g.

After causticizing time (120 min) with the reaction mixture in the flask was transferred to a thermostat and maintained at ⁹⁰ ° C for 60 min. The clarified part of the white liquor is drained and analyzed. The total alkalinity of 117 g / DM ³ units. Na ₂ O, active alkalinity of 107.3 g / DM ³ units Na ₂ O, sulfide content 32.5%, causticization rate 88.2%. The composition of white liquor is given in the table.

As a sodium-containing reagent, take a soda-paste solution according to TU-48-0114-72 / 0-91 "Soda-paste solution" of the following composition: sodium carbonate 224 g / dm ³ units. Na ₂ O and potassium carbonate 31 g / DM ³ units Na ₂ O. This solution is diluted with weak white liquor to a concentration of total alkalinity of 120.6 g / DM ³ units. Na ₂ O and analyze. The solution contains, g / dm ³ units. Na ₂ O: sodium carbonate 93.6, potassium carbonate 12.2, sodium hydroxide 9.7, sodium sulfide 5.1.

250 ml of the dilute soda and potash solution is placed in a heat-resistant 500 ml flask with reflux condenser and kaustiziruyut slaked lime slurry with a content of active CaO 85 g / l at a temperature of 98 ° ^C under continuous stirring for 120 min on a magnetic stirrer with a temperature controller. After closure causticizing process the flask was placed in an incubator and incubated at ⁹⁰ ° C for 60 min. In this case, sludge is precipitated and the resulting white liquor is clarified. The clarified liquor obtained by causticizing the soda-liquor solution is drained and analyzed. The concentration of total alkalinity 119 g / DM ³ units Na ₂ O, active 108 g / dm ³ u Na ₂ O and the degree of causticization of 90.4%
To prepare white cooking liquor, to 400 ml of white liquor obtained by causticizing green liquor, add 80 ml of liquor obtained by causticizing soda-potting solution. After stirring, a sample is taken for analysis. The results of the analysis are presented in the table. Characterization of the resulting white cooking liquor: total alkalinity of 117.3 g / DM ³ units Na ₂ O, active alkalinity of 107.4 g / DM ³ units Na ₂ O, sulfide 26.7% degree of causticization 88.9% degree of recovery 91.6%
The results of the experiments presented in the table show that the separate caustization of green liquor and sodium-containing reagent soda-potash solution provides a ready cooking white liquor with higher rates. Thus, the activity of cooking white liquor increases by 0.8%, which ensures the best quality of white liquor and reduces the amount of inert (ballast) impurities in it. This creates the best conditions for the operation of heat transfer equipment and reduces the amount of ballast impurities in the black sulfate liquor recovery system.

 The causticization percentage of white cooking liquor is increased by 1.2 abs. compared to the prototype. The increase in the caustization percentage of cooking white liquor is ensured by separate caustization of green liquor and soda-potting solution. Sodium sulfate and sodium sulfide are absent in the soda-potash solution and the degree of caustization of this solution is high and amounts to 90.4%. The causticized and clarified soda-potash solution, when introduced into the clarified causticized white liquor, increases its causticization rate, reduces the concentration of inert impurities that are present in white liquor .

While the prototype sodium-containing reagent with a mass fraction of sodium carbonate of 31.1 g / DM ³ is introduced into the already causticized white liquor and thereby increases the amount of inert impurities in the white cooking liquor.

Using this method of preparing white liquor to obtain sulfate pulp in comparison with the prototype will allow:
to improve the quality of white liquor by increasing the degree of caustization, due to an increase in the active part of white liquor and a decrease in inert impurities in it;
to improve the operation of the heat exchange equipment of the brewhouse and the regeneration workshops due to the elimination of reagents containing polymeric hydrocarbons in white liquor that complicate the pulping process;
significantly reduce the cost of sulphate pulp due to the use of a cheaper sodium-containing reagent (an order of magnitude) soda paste solution to make up for alkali losses.

Claims (1)

 METHOD FOR PREPARING WHITE ALKALINE FOR PRODUCING SULPHATE CELLULOSE, including burning spent black liquor, dissolving the resulting melt to form green liquor, caustizing it to produce white liquor, introducing a sodium-containing reagent into the causticized white liquor and clarifying the latter, which is used in sodium quality semi-product of soda ash production - soda-paste solution, which is pre-causticized and clarified, and then it is introduced in the batch perishable causticized white liquor.

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