RU2425807C1 - Method of purifying waste water from cadmium ions - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: sorbent used is silica gel - an aluminium fluoride production waste which is modified with fatty acids, for example, stearic acid or palmitic acid, in amount of 1-15%. The adsorption process takes place in a temperature interval of 25-45°C while stirring.

EFFECT: high degree of purity of waste water from cadmium, recycling large amounts of wastes from aluminium fluoride production.

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Description

The invention relates to the treatment of wastewater from heavy metal ions, mainly from cadmium ions, and can be used in wastewater treatment technologies of various industries and in water treatment.

Currently, wastewater treatment of enterprises is an urgent environmental problem. It exists in almost all regions of Russia. Despite the fact that heavy metals are chemical components of the biosphere, its artificial pollution by the latter sharply increases with the development of industry. Many technologies are associated with the formation of so-called diluted solutions containing toxic metals. With wastewater from non-ferrous metallurgy, as well as galvanic shops, a significant amount of metal ions enter the reservoirs. A powerful source of environmental pollution is motor vehicles.

Many impurities are not mechanically extracted from water, are not neutralized during biological treatment, and are not removed by such traditional water treatment methods as sedimentation, coagulation and flotation. This leads to the introduction of a sorption post-treatment stage into a complex technological scheme of water treatment. As a rule, this stage is the final stage in the technological process of water purification.

The sorption method is a well-controlled process. It allows you to remove contaminants of an extremely broad nature to almost any residual concentration, regardless of their chemical resistance.

An important method of wastewater treatment is adsorption treatment using industrial waste and local raw materials. This cleaning method is distinguished by its versatility, simplicity of hardware design, and does not require large investments.

As adsorbents for the extraction of pollutants from industrial wastewater, activated carbons are most widely used. However, the low adsorption capacity of industrial activated carbons, as well as the low diffusion permeability of the adsorbent granules, limit the introduction of sorption methods in production [1].

Silica-containing materials have already found wide application as effective silica adsorbents, adsorbents and carriers for gas chromatography. Modern technologies strive to modify traditional sorbents to improve their sorption properties. Chemical modification of the surface of dispersed silica has been greatly developed, which makes it possible to directionally change its properties.

One of the most common mineral adsorbents in industrial practice is silica gel, which has a well-developed porosity and chemical composition is silicon oxide (silica) [2].

Closest to the proposed technical essence and the achieved result is a method of treating wastewater from cadmium ions by their extraction with silica gel, which is a waste product of aluminum fluoride production [3]. The disadvantage of this adsorbent is its low adsorption capacity, which leads to a low degree of purification of the aqueous solution from heavy metals by the example of cadmium ions.

A change in the adsorption properties of silica adsorbents can be achieved by chemical modification of their surface by introducing amino, sulfo, and nitrile groups, fluorine atoms, alkyl and alkenyl radicals. Modification allows to obtain adsorbents with qualitatively new properties.

The technical result of the claimed invention is to improve the sorption properties of silica gel, which allows you to effectively purify wastewater from heavy metals.

At the same time, in addition to good sorption properties, the adsorbent has a low manufacturing cost.

A positive effect when using the claimed invention is achieved by modifying the surface of silica gel particles with fatty acids.

A method of preparing an adsorbent for wastewater treatment from heavy metals is carried out by introducing stearic or palmitic acids into the silica gel according to the recipe. The mixture is thoroughly rubbed in a mortar at room temperature to a homogeneous mass and is ready for use.

A decrease in the amount of modifier (less than 1% by weight of silica gel) does not increase the sorption properties, and the degree of purification of wastewater from heavy metal ions does not change.

The amount of modifier more than 15% of the mass of silica gel is not retained by the surface of the unmodified adsorbent and forms an independent phase, which does not have adsorption properties.

The use of an adsorbent for wastewater treatment from heavy metals is as follows.

In an aqueous solution containing cadmium ions, a modified adsorbent is introduced in a ratio of T: W = 3: 100. Processing is carried out at temperatures of 25-45 ° C with stirring until sorption equilibrium is achieved. Then the precipitate is filtered off, the purified water is sent to production.

Due to the fact that the adsorption on the modified silica gel occurs due to the forces of a chemical nature, lowering the temperature below 25 ° C makes the cleaning process ineffective. An increase in temperature above 45 ° C leads to desorption of the modifier from the surface of silica gel, which also leads to a decrease in the degree of extraction of metal ions from water.

The effectiveness of the described method of wastewater treatment from heavy metals on the example of cadmium and the need for the stated conditions to achieve the goal is illustrated by the following examples.

Example 1. Purified water containing 100 mg / l of cadmium is fed into a contact tank, with stirring, 1% palmitic acid modified palmitic acid adsorbent is introduced in an amount of 3 mg / l, and the treatment is carried out with stirring at a temperature of 25 ° C for 10 min (until sorption equilibrium is reached). Then the water purified from cadmium ions is filtered off. The degree of purification from cadmium ions is 30.2%.

Example 2. The method is carried out analogously to example 1, but the adsorption process is carried out at a temperature of 45 ° C. The degree of purification from cadmium ions is 33.8%.

Example 3. The method is carried out analogously to example 1, but enter the adsorbent-silica gel modified with palmitic acid in an amount of 7%. The degree of purification from cadmium ions is 44.2%.

Example 4. The method is carried out analogously to example 1, but injected adsorbent-silica gel, modified with stearic acid in an amount of 3%, and purification is carried out at a temperature of 25 ° C. The degree of purification from cadmium ions is 33.1%.

Example 5. The method is carried out analogously to example 1, but enter the adsorbent-silica gel, modified with stearic acid in an amount of 7%, and the purification is carried out at a temperature of 45 ° C. The degree of purification from cadmium ions is 53.9%.

Example 6. The method is carried out analogously to example 4, but the adsorbent silica gel modified with stearic acid in an amount of 15% is introduced. The degree of purification from cadmium ions is 75.0%.

Example 7. The method is carried out analogously to example 1, but the adsorption process is carried out by unmodified silica gel at a temperature of 45 ° C. The degree of purification from cadmium ions is 15.0%.

Table 1 The amount of modifier (stearic acid),% The degree of purification,% At 25 ° C At 35 ° C At 45 ° C 0 (prototype) 26 18.7 fifteen one 29.3 31,4 33.5 3 33.1 36,4 39.1 5 37,2 40.7 47.7 7 42.7 46,4 53.9 10 49.5 58.8 62.9 fifteen 56.7 71.1 75 table 2 The amount of modifier (palmitic acid),% The degree of purification,% At 25 ° C At 35 ° C At 45 ° C 0 (prototype) 26 18.7 fifteen one 30,2 32.8 33.8 3 35,2 37.5 40.5 5 39.5 43.1 51.5 7 44,2 55.1 62.1 10 57.4 59.3 69.3 fifteen 62,4 67 74,4

Analysis of the data presented in tables 1 and 2, showed that the claimed tool has a higher adsorption capacity, modification with fatty acids leads to an increase in the degree of purification of the aqueous solution from cadmium ions by 2.2-2.4 times at 25 ° C, 3, 6-3.8 at 35 ° C, 5 times at 45 ° C.

In addition, the use of the proposed adsorbent promotes the disposal of large-tonnage waste from aluminum fluoride production, where about 0.36 tons of silica gel are formed per 1 ton of aluminum fluoride (in terms of 100% silicon oxide).

The material proposed in this work is a promising, affordable, cheap and fairly effective sorbent for practical use in the development of industrial wastewater treatment and water treatment technologies.

Information sources

1. Nagaev V.V., Shulaev M.V., Sirotkin A.S. // Chemical industry. 1998. No. 7. S.27-30, 1998. No. 10. S.29-30.

2. Koltsov S.I., Aleskovsky VB Silica gel, its structure and chemical properties. L., 1963.

3. Akayev O.P., Tsvetkova A.D. The use of silicon-containing waste as sorbents of heavy metal ions. / Journal of scientific publications of graduate students and doctoral students, Kursk, No. 12, December, 2009. - P.103-104.

Claims (1)

A method of treating industrial wastewater by treatment with an adsorbent followed by separation of the precipitate formed, characterized in that silica gel, aluminum fluoride production waste modified with fatty acids in an amount of 1-15% are used as adsorbent, and the adsorption process is carried out with stirring at temperatures of 25-45 ° C.