SU632664A1 - Method of treating nepheline-syenite slime - Google Patents

Description

The invention relates to the technology of processing alumina-containing materials and can be used in the building materials industry in the manufacture of cement based on b-lithium X sludge.

A method of treating nepheline sludges used in the production of cement is known by repeatedly washing them from alkalis with water. M

Of the known methods, the method closest to the described technical essence and the achieved effect is the separation of the sludge from the solution, washing, repulping, sludge and re-separating the sludge from the sludge with the subsequent regeneration of alkalis from the last 2. alkalis in the sludge, which leads to deterioration in the quality of cement produced from the sludge.

The aim of the invention is to improve the quality of the cement by reducing the alkali content.

The goal is achieved by the fact that in the method of treating nepheline-syenite sludge used in cement production, including separating the sludge from the solution, washing, repulping, sludge and re-separating the sludge from the sludge from the latter, regenerate alkalis from the latter into the slurry before settling humic acids or their derivatives in the amount of 1.2-1.9 times the stoichiometric content of alkalis, and regeneration

Underwater, 1x water is carbonated followed by separation of alkali metal carbonates and humic acid.

Gooch inic acids in the presence of alkalis are capable of decomposing minerals by isolating and binding the alkalis present in them and then easily decomposed by carbonization to humic acid 363 and alkali metal carbonates or bicarbonates. In the process, a substance containing humic acid, such as lignite, peat, lignin, straw, or mixtures thereof, is ground with subsequent steaming or without it, and injected into the slots before stoichiometric by. relation to the alkali content in schlama.

The resulting pulp is pumped to the slime field, where in the process of prolonged settling of the sludge, its decomposition occurs with the formation of alkali metal humates. Then the sub-sham water is pumped out from the slurry floor and is subjected to carbonization, for example, with waste furnace gases containing up to 20% carbon dioxide. The carbonated pulp is filtered and the alkali metal carbonates and humic acid are separated, which is returned to the fresh portion for renulpation.

Unreacted remnants of ryvniHo-containing substances along with nichamom come to the preparation of cement clinker and burn in the furnace, replacing part of the 1-plum.

When carrying out the process, nepheline gaps containing 3.2% of alkalis were repulped in a solution of humic acid, taken in an amount of 1.5 times stoichiometric. Humic acid was obtained by drawing peat. Pulp with humidity 40% was kept at

The method of processing nepheline-syenite. shlama, useevyugo in cement production, including the separation of shlama

from solution, washing, repulping, sludge and re-separating the sludge from the sub-bottom waters, followed by regeneration of the alkalis from the latter, characterized in that humic acids or their derivatives are introduced into the slots in order to improve the quality of the cement the amount of 1.2-1, Y-fold stoichiometric content

5 alkalis, and the regeneration of the sub-alkaline waters is carried out by carbonization followed by the separation of alkali metal carbonates and humic acid.

Sources of information taken into account in the examination:

1. Korneev V. Ili et al. Complex processing of nepheline sludge, M, Metallurgists, 1974, p. 187-188.

2. Metallurgist Handbook on Nonferrous Metals, Moscow, Metallurgists, 1970, p. 146. room temperature for 18 days. The residual alkali content in the sludge was 1.8%. Thus, the method makes it possible to reduce the alkali content in the sludge to 1-2% and return them to the process, as well as to improve the quality of the cement.

Claims (1)

 Invention Formula