SU503419A1 - Method of regeneration of used sulfate liquor - Google Patents

Description

Ai in one of the evaporated black liquor concentrations of 30-55% with a weight ratio of (1-2): 1.

In the process of mixing sodium sulfate with heaped or evaporated black liquor with a concentration of 30-55% at 70-85 ° C, organic substances precipitate from the mixture as a fine phase, instead of which sodium sulfate is additionally dissolved in the liquor. This effect subsequently leads to qualitative changes in the reduction of sodium sulfate.

The solubility of sodium sulfate in lye is given below.

Table

Solubility of sodium sulfate in lye, g tiajSOA

0.1 liters of liquor

It should be noted that with the known method of liquor regeneration, the displacement process is short-lived, on the order of several days, therefore the longer increase in the contact time of the liquor with sulfate during storage leads to additional dispersion of sodium sulfate and even closer contact with carbon, which increases the efficiency alkali regeneration.

The table lists the degrees of reduction of sodium sulfate with the known and proposed methods for the regeneration of black sulfate liquor, obtained on a pilot plant of the Mari PPM.

table 2

From the above data, it follows that the solubility of sodium sulfate in black liquors increases with decreasing concentration of liquor, which leads to an increase in the degree of reduction of sodium sulfate, and consequently, to an increase in the efficiency of alkali regeneration. In addition, the proposed method makes it possible to use granulated sodium sulphate - a waste chemical, having a low degree of reduction when using a known method. The proposed method is carried out according to the technological scheme shown in the drawing. In mixer 1 at 70-85 C, a highly concentrated mixture of dry sodium sulfate is prepared with semi-boiled or one stripped black liquor in a weight ratio of (1-2): 1, respectively. The mixture is pumped to storage tank 2, and the dwell time in it depends on the sodium sulphate reserve taken at the plant (usually not less than 7 days). The displacement of the prepared highly centered sulfate mixture with the evaporated black liquor before incineration is carried out in mixer 3 and the incineration is carried out in the furnace 4 of the CPCA. The melt then dissolves in tank 5 and feeds to causticization. 179.4 281.3 380.2 4 6 p, Average value 80.3 From the table it follows that the degree of sulfate reduction with the use of the proposed method increases, which increases the efficiency of alkali regeneration. Moreover, the proposed method leads to the following additional advantages: 1. It is easier to regulate the operation of CPCA in connection with the possibility of ensuring the stability of the mixture of the liquor-sulphate mixture in the storage tank. With the same method, it is necessary to continuously introduce a correction for the moisture content of sulphate, which ranges from about ± 15%. 2. The loss of sodium sulfate during transportation is reduced, and its consumption is reduced, which is a very important indicator characterizing the quality of the technological process. 3. Sanitary conditions are improving due to the absence of dust in the sulphate supply path from the storage tank to the plant. Thus, in the proposed method of regeneration of black sulphate liquor and a known amount of sodium sulphate entering the CPKA furnace, all other things being equal, the same, however, the use of highly concentrated dry sulphate of sodium sulphate with semi-evaporated or evaporated black liquor as sodium sulphate leads to qualitative changes in the process Regene Sulfap Hawpvf)

Kaus7g) E383 (6 radios of liquor, increasing the efficiency of this process. Invention formula , dissolving the latter and causticizing the resulting solution, characterized in that, in order to increase the efficiency of the regeneration process, sodium sulphate is used as a suspension in one vapor ohm liquor concentration of 3035% at a weight ratio (1-2). 1 4epHtiv purposes it konts.30551