SU1719315A1 - Process for treatment of shale processing sewage - Google Patents

Abstract

The invention relates to methods for treating wastewater from the oil shale and coal chemical industry, in particular to methods for treating industrial wastewater from organic compounds, mainly carboxylic acids and their esters. The purpose of the invention is to increase the degree of wastewater treatment. For carrying out the process, wastewater treatment containing 8.0-10.5 g / l of carboxylic acids, 0.5-1.5 g / l of phenols, 1.1-5.2 g / l of pyridine bases, is carried out in an adsorption manner, moreover, wastewater is fed to the adsorption column in the vapor phase and adsorption is carried out at 125-145 ° C. As an adsorbent, shale semi-coke is used that contains 19-22 wt.% Alumina, 40-45 wt.% Silicon oxide and at least 20 wt.% Carbon, or semi-coke of poor coal, containing at least 60 wt.% Carbon. The method provides an increase in the degree of purification of phenol by 4 to 4.5% while ensuring a high degree of purification from the remaining organic substances. 1 tab. fe

Description

The invention relates to methods for the purification of industrial wastewater (CB) from organic compounds, mainly carboxylic acids and their esters, and can be used in the field of shale and coal chemical industries.

The aim of the invention is to increase the degree of purification of CB of the oil shale industry from phenol.

Example 1.50ml of CB obtained from the processing of combustible shales from the Kotzebinsky deposit on a plant with a solid heat carrier, characterized by chemical oxygen uptake (COD) 37.0 g O In, phenol content 1.5 g / l. 1.1 g / l of pyridine bases, 7.9 g / l of carboxylic acids, are passed through a tubular evaporator at 125-145 ° C, necessary to maintain the vapor state of the CB in the absence of capillary condensation. Couples CB are fed to an adsorption column with a diameter of 10 mm and a height of 250 mm filled with 25 g of pre-activated water vapor or semi-coke with 65% nitric acid obtained by processing cocabine combustible shale on a unit with a solid heat carrier. Activated semi-coke has a specific surface of 65 m2 / g and contains 19-22 wt.% Alumina, 40-45 wt.% Silicon oxide and at least 20 mcc.% Carbon.

Data on the purification efficiency of dry matter, depending on the temperature of the process, are presented in the table.

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with

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The COD in water purified at 125 ° C is 0.18 g O / l.

Example 2. 50 ml of CB obtained by processing Kansko-Achinsk coals in a vertical reactor, characterized by a COD of 30 g O / l, phenol content of 0.5 g / l, carboxylic acids 10.5 g / l, pyridine acids 5.2 g / l, is passed through an evaporator - adsorption column system, similarly to example 1, but semi-coke, previously activated at 700 ° C with steam, obtained by semi-coking of Kansk-Achinsk coals, characterized by an average radius of pores of 10 nm , with a specific surface of 100 m2 / g and containing at least 60 wt.% leroda. At the same time, when conducting the purification process at 145 ° C, the degree of purification of CB on COD is 99.1%, in purified water only traces of phenol are found.

It can be seen from the table that, in comparison with the known method of purification of CB, the degree of purification increases by 4–4.5% and the concentration of organic substances in other water is obtained, which corresponds to the standards,

imposed on waters intended for discharge into open water bodies.

When using shale semi-coke containing not less than 20 wt.% Of carbon, or prolukoks of poor coals containing less than 60 May% of carbon, the degree of purification with phenol is reduced to 74-75%. The temperature range for maintaining the vapor state for a char with a carbon content of at least 20 wt.% Is 125-145 ° C, and for char with a content of at least 60 wt.% 135-145 ° C, which is caused by the porous structure of the adsorbents.

Claims (1)

Invention Formula The method of sewage treatment of oil shale production from organic compounds, including transmission through carbon-containing shale semi-coke, characterized in that, in order to increase the degree of purification from phenol, adsorption is carried out in the vapor phase and use shale semi-coke containing at least 20 wt% carbon or semi-coke coal containing at least 60 wt.% Carbon.