SU506675A1 - The method of processing waste sulphite liquor - Google Patents

Description

one

The invention relates to the field of processing sulphite-cellulose wastes and can be used in the production of cellulose, as well as in the milk and fish industries in the purification of contaminated with fats and proteins of wastewater for the extraction of these components.

Methods are known for electrodialysis processing of spent sulphite liquor in order to regenerate the cooking base and to obtain fractions of decationized organic liquor organic substances. However, such methods do not provide additional electrolytic processing of fractions on the electrodes.

For example, a method of electrodialysis processing of spent sulphite liquor is known, including electrodialysis regeneration of the cooking base and electrodialysis separation of decationized organic components of the liquor into low and high molecular weight fractions.

The purpose of the invention is to increase the efficiency of the processing of liquor.

The increase in efficiency according to the invention consists in obtaining, during the electrodialysis processing of sulphite liquor, a new product suitable for direct practical use.

In the proposed method, the high molecular weight fraction obtained by electrodialysis separation of decationized organic components of the liquor is directed to the anode and subjected to electrolytic treatment. Electrolytic treatment of the liquor is preferably carried out in steps, with a change in the current density in the apparatus.

The anodized fraction has enhanced adsorption-coagulating properties with respect to fats and proteins. It is used in the purification of wastewater polluted by these substances.

Prilier. 3000 ml of a spent sulphite liquor on a magnesium base with a solids concentration of 350 g / l, 10% of which is based on MgO, were subjected to processing. 300 ml of this liquor was used as an anolyte. First, the process is carried out at a current density of 75 mA / ohm of the effective area of the membranes. The effective area of the anode is half the area of the membranes and the current density at the anode is 150 mA / cm. With a base recovery rate of 20% and removal of 7% of low molecular weight components from the liquor, 1000 ml of liquor is fed to the anolyte recirculation system, replacing the initial ZOO ml of the anolyte. The density of the anode current is reduced to 100 mA / cm, and the process continues until the degree of regeneration.

base from liquor equal to 50%. The high molecular weight fraction is replaced by a new portion of the spent sulphite liquor (3000 ml), and the anodic current density increases to 150 mA / cm. When the degree of regeneration of the base from the anolyte is, the degree of regeneration of the base from the liquor is. Replace the anodic portion with 1000 ml, reduce the anodic density to 100 mL / cm and conduct the process similar to the first cycle. The first cycle results in 1000 ml of aH10Dono: sconce, a botanical high molecular weight fraction, 2000 ml of a high molecular weight fraction, corresponding amounts of magnesium bisulfite and a low molecular weight fraction of lye.

Thus, in addition to the commonly obtained biszlfit products, low molecular weight and high molecular weight liquor fractions, according to the invention, an additionally anodine processed liquor fraction is obtained, which has enhanced adsorption-coagulating properties with respect to fats and proteins. For example, in wastewater treatment of m ancine-processing plant with anodically treated liquor, a reduction in COD and permanganate oxidation capacity is 85-95%, while purification of similar waters with untreated liquor or alpha-lignosulfonic acids leads to a decrease in these indicators by 65-75%.

Claims (1)

Invention Formula A method of processing spent sulfite liquor, including electrodialysis regeneration of the cooking base, electrodialysis separation of decationized organic components of liquor into low molecular weight and high molecular fraction, characterized in that, in order to increase the efficiency of processing liquor, the high molecular weight fraction is directed to the anode and subjected to electrolyte. processing.