RU2015236C1 - Process for regeneration of sulfate digestion waste liquors - Google Patents

Abstract

FIELD: retreatment of pulp liquors. SUBSTANCE: sulfate digestion black lye is burnt, the resulting smelt is dissolved to form green liquor that is treated with hydrated lime. The resulting slurry is washed and the residue is fired. The steps of dissolving the smelt, hydrating the lime and washing the slurry are carried out by using wood pulp spent liquor containing sodium compounds and the products of their neutralization and having pH 7.5-12.5. This wood pulp spent liquor is pretreated by removal of the suspended matters and a portion of solutes from it. EFFECT: increased regeneration. 1 cl, 3 tbl

Description

 The invention relates to methods for the regeneration of chemicals for the production of sulfate pulp and can be used in the pulp and paper industry.

 A known method for the regeneration of chemicals from spent black liquor of sulfate pulp production, including burning black liquor, dissolving the melt with the formation of green liquor, quenching lime with the formation of calcium hydroxide, treating the green liquor with a solution of calcium hydroxide, precipitating the sludge, removing it, washing and firing. In this case, the dissolution of the melt is carried out with water or a weak white liquor, the lime is quenched with green liquor, and the sludge is washed with water. This method is not effective enough.

 The problem to which the invention is directed is to increase the efficiency of the regeneration process, reduce the pollution of industrial effluents and improve the quality of white liquor - increase the concentration of active and total alkali.

 The technical result of the invention, which allows to solve this problem, is to intensify the causticization process by accelerating the sedimentation of sludge, reducing the consumption of sodium sulfate, eliminating pollution from wood-mass production. In addition, steam removal increases during the combustion of black liquor, and energy consumption for lime regeneration is reduced.

 This result is achieved by the fact that, according to a method for the recovery of chemicals from spent liquors of sulphate pulp production, which includes burning black liquor, dissolving melt with the formation of green liquor, quenching lime with the formation of calcium hydroxide, treating green liquor with a solution of calcium hydroxide, precipitating sludge, removing it, washing and firing, according to the invention, the dissolution of the melt, the extinguishing of lime and the washing of the sludge is carried out with an spent solution of wood-mass production containing compounds of nat Ia and products of their neutralization and having a pH of 7,5-12,5. In this case, a spent solution of wood-mass production is used, previously subjected to the removal of suspended and part of the dissolved substances from it.

 As waste solutions of wood-mass production, used solutions of the production of bleached and unbleached chemothermomechanical (CTMM), chemical-mechanical pulp, bleached thermomechanical pulp, as well as the spent solution for the production of HTMM from waste sorting wood pulp. In this case, the implementation of joint regeneration can be used in the addition of spent impregnating solutions, spent concentrated solutions after grinding, filtrates for washing the mass after the first or second stage of grinding and spent bleaching solutions.

 Sodium wastes and dissolved organic substances are supplied to the indicated stages of black liquor recovery with wood-based effluents. The conversion of sodium compounds neutralized by dissolved organic acids into the active cooking reagent NaOH occurs by approximately 25% in the causticization system and 75% after the entire cycle of sulfate cellulose production. Dissolved organic substances go into the caustic sludge of the sulphate-cellulose production by about 60% and by about 40% remain in the white liquor and go to cooking and then with the black liquor of the sulphate production for evaporation and burning in a soda recovery boiler (SRC). Such a distribution provides both a reduction in energy consumption for lime regeneration and an increase in steam removal during the burning of black liquors of the sulphate-cellulose production in the IBS. At the causticization stage, an increase in the concentration of total and active alkali in white liquor is provided depending on the volume fraction of the spent liquor of the wood-mass production supplied to the causticization system. The increase can be up to 10%.

PRI me R 1. The spent liquor of the sulfate production is burned at a temperature of 900 ^about C, the resulting melt is dissolved in order to obtain the original green liquor.

To dissolve the melt, use the spent production solution from a mixture of coniferous and deciduous wood, previously subjected to the removal of suspended and part of the dissolved substances from it and having a composition, g / l: NaOH 12, Na ₂ CO ₃ 6, suspended particles 0.2. This solution has a pH of 7.5 and 12.5.

The obtained (initial) green liquor has the following characteristics (g / l units Na ₂ O): total alkali 90, NaOH 10.7, Na ₂ S 21.4, Na ₂ CO ₃ 57.9.

Green liquor is causticized with lime slaked with the same spent solution produced by HTMM. Thus, the causticization process is carried out in the presence of an spent HTMM solution. Causticizing process parameters: temperature 98 ^{° C,} duration 1 hr, the volume of the waste liquor CTMP - 12, 25, 50, 75%. The dependence of the concentration of active alkali in white liquor on the volume fraction of the spent solution produced by CTMM entering the causticization system is given in table. 1.

 The precipitated sludge is washed with the same spent solution produced by HTMM and calcined.

 Data on the average sedimentation rate of sludge in liquors are given in table. 2.

 As can be seen from the data given in table. 2, the use of spent HTMM liquors in the causticization process results in denser sludges, which, despite an increase in the concentration of white liquor, precipitate faster.

 Characteristics of white liquor after caustization and data on the degree of caustization are given in table. 3.

 As can be seen from the presented data, the proposed method provides a return to the production of sodium hydroxide in significant quantities, which provides an increase in the concentration of active and total alkali in white liquor (Tables 1 and 3), and also improves the caustization system and the quality of white liquor due to changes in the properties of sludge and its more rapid deposition (table. 2).

 The proposed method is an effective way to eliminate pollution from wood-mass production, providing a significant reduction in the cost of wastewater treatment.

 Thus, the invention ensures the achievement of a technical result and corresponds to industrial applicability, since it is feasible on existing equipment.

Claims (2)

 1. METHOD FOR REGENERATING CHEMICALS FROM WASTE SULPHATE PRODUCED ALKALIES, including burning black liquor, dissolving melt to form green liquor, slaking lime with calcium hydroxide, treating green liquor with calcium hydroxide solution, precipitating sludge, removing it, washing and roasting, characterized in that the dissolution of the melt, the extinguishing of lime and the washing of the sludge is carried out with a spent wood-mass production solution containing sodium compounds and their neutralization products and having a pH = 7.5 - 12.5.  2. The method according to claim 1, characterized in that suspended and part of the dissolved substances are previously removed from the spent wood-mass production solution.