SU1049596A1 - Method of recovering alkali from spent liquor of sulphate or soda process of pulp production - Google Patents

Abstract

METHOD FOR REGENERATION OF ALKALI spent liquor sulphate or soda pulping liquor by electrolysis of Whitlock ichayuschiys in that, in order to increase the degree of regeneration while reducing energy costs, electrolysis is carried out in a batch current field with a reverse pulse at a frequency of 50-1000 Hz and current density values for the positive and negative components, respectively, 0.05-0.10 A / cm and 0.01-0.05 A / cm2,

Description

 The invention relates to methods for the regeneration of alkali from waste liquors of sulphate and soda production and can be used in the pulp and paper industry. There is a known method for regenerating lye from spent lye from sulphate or soda cellulose by electrolysis of lye. Electrolysis of black liquor is carried out in a diaphragm bath. In this case, the decomposition of sodium organic compounds and sodium inorganic salts occurs, and organic matter is precipitated at the anode, and a solution of pure caustic soda l is obtained at the cathode separated by a semi-permeable partition. However, this method does not provide a high yield of electrolysis products, as a result of which the degree of alkali regeneration is small. In addition, carrying out electrolysis in direct current leads to significant energy costs. The purpose of the invention is to increase the degree of regeneration while reducing energy costs. This goal is achieved by the fact that, according to the method of alkali regeneration from waste liquor of sulphate or soda production by electrolysis of liquor, electrolysis is carried out in the field of a five-periodic current with a reverse pulse at a frequency of 50-100 Hz and current density values of the positive and negative components respectively 0.05-0.10 A / cm and 0.01-0.05 A / cm Example. A black electrolyte sulphate liquor is loaded into a laboratory electrolysis machine equipped with a semipermeable membrane and a cooler and electrolysis is carried out in a periodic current field with reverse and micromos. During operation, the current of the positive and negative components, the frequency, the yield of organic sludge and the concentration of caustic soda are recorded. In parallel, experiments are carried out by a known method. Lye with a dry matter concentration of 100 g / l. The results obtained, the magnitude of the current and frequency are presented in the table. Similarly to the example, electrolysis of black liquor with a concentration of 200 g / l and 300 g / l is carried out. The results of the analysis, current density and frequency are shown in the table. For electrolysis, 1 liter of liquor is taken and electrolysis is carried out for 10 hours. As can be seen from the table, the yield in the cathode and anode space increases with increasing current density and frequency at the same electrolysis time according to the proposed method. The positive and negative components of the current in this process, respectively, characterize the density of the forward (main) direction of current flow and its reverse flow. The electrolysis of liquors by an alternating current with a frequency of 50-1000 Hz with a positive component of 0.05-0.10 A / cm, a negative component of 0.01o, 05A / cm allows a significant increase in the yield of electrolysis products in comparison with the known method, t. e. to increase the degree of alkali regeneration while reducing energy costs.

Claims (1)

METHOD OF ALKALI REGENERATION FROM WASTE ALKALINE OF SULPHATE OR NATRON PRODUCTION OF CELLULOSE by electrolysis of liquor, which involves the fact that, in order to increase the degree of regeneration while reducing energy costs, electrolysis is carried out in a periodic current field with a pulse frequency of 50-1000 Hz at a frequency of 50-1000 Hz and the values of current density in the positive and negative components, respectively, 0.05-0.10 A / cm ^z and 0.01-0.05 A / cm ² . about Xia> J