UA133894U - HEAVY SUSPENSION FOR THE DIVISION AND ENLARGEMENT OF SOLID FUEL, ORE AND NON-USEFUL MINES, TECHNOGENIC AND SECONDARY RAW MATERIALS - Google Patents

Abstract

The heavy slurry for the separation and enrichment of solid combustible, ore and non-metallic minerals, man-made and secondary raw materials consists of a liquid medium formed by water, crushed enrichment material and carbonate rock. This uses carbonate rock with grain sizes from 0.01 μm to 25 mm, and the ratio of water masses to the rock is from 20: 1 to 1: 5, with a slurry density of 1050 to 4000 kg / m3.

Description

The useful model belongs to the technologies of separation and enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials in heavy suspensions consisting of water, crushed enriched material (solid combustible, ore and non-ore minerals, man-made and secondary raw materials), carbonate rock and weighting agent (weighting agents) and can be used at enrichment factories and processing plants for the separation and enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials.

A large number of technologies for the enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials are known, which consist in the separation of the useful component from non-useful (mineral-containing, etc.) components, including ash, empty rock and clay, and the further separation of the said useful component, among which a special place is occupied by technologies based on flotation.

In particular, the flotation technologies of enrichment include technologies that use heavy media of clay-water-air suspensions of different composition and, accordingly, different physical and chemical properties.

The essence of the beneficiation process in heavy environments is that if the components of the beneficiated minerals (for example, coal and mineral parts) differ in density, then when these minerals are immersed in an environment of intermediate density, two fractions (settled and floated) emerge, in one of in which useful minerals are concentrated, and in the other - empty rock. Particles whose density is greater than the density of the suspension sink to the bottom, less dense ones float to the surface and are swept away. A fairly clear separation of components is achieved even with a small difference in their density. Another advantage is the ability to enrich material with large particle sizes (up to 300 mm). Suspensions are prepared in the form of a mixture of crushed rock or man-made or secondary raw materials, water and a weighting agent. Solid particles of enriched material and weighting agent are the dispersed phase, the dispersion medium is water. Minerals or products of various production processes are used as weighting agents. The most common weighting agents in the enrichment of solid combustible minerals are magnetite (magnetite concentrate, density 4500-5000 kg/m3), in the enrichment of ores and non-metallic minerals - granular ferrosilicon (density 6900-7000 kg/m3) or their

From the mixture.

For example, a well-known method of deashing coal by flotation is based on the use of a coal-water suspension, which is prepared as follows: the original natural coal is ground to a particle size of about 150 μm, then mixed with an emulsion of a hydrocarbon liquid containing an agglomerating agent, which is a mixture of light and heavy oil fractions, and water, so that the coal particles are wetted by the hydrocarbon liquid in the first place, and the hydrophilic particles of the empty rock are dispersed in water, forming a suspension. In the presence of raw coal, agglomeration of carbon-containing particles occurs. Next, the slurry of loose rock is removed together with water, and the agglomerated particles of the carbonaceous component are treated with dry steam, which does not contain oxidizing ingredients and has a temperature of 100-245 "C to separate the agglomerating agent from the coal particles (see US patent Mo 4396396, 1983).

The disadvantages of this method are significant costs for its implementation, high ash content of the carbon-containing component obtained as a result of the implementation of the method, and its low yield.

A coal-water suspension intended for coal deashing is also known, containing coal, water and an agent added to the suspension capable of reacting with undesirable clay minerals to form a water-soluble complex, where the basic solution has a pH of 7-13 and a concentration of a water-soluble complex of 50- 5,000 liquid parts per 1 million parts water, separation of coal and sludge by foam flotation, formation of filtered lumps from the separated coal, drying of said lumps, dry foam treatment and complete filtration of the filtered coal (see US Pat. No. 5,402,894, 1993).

The method based on the use of this suspension is characterized by high costs and technological complexity.

A method of coal enrichment is also known, which includes the preparation of a suspension by adding a sintering mixture containing a light hydrocarbon (n-hexane, n-pentane, petroleum ether) with a boiling temperature of no higher than 70 "С to an aqueous dispersion of coal in the amount of 2- 50 to, a heavy hydrocarbon (coal oil) with a boiling point of 200-400 "С, residual petroleum products or their mixtures in the amount of 0.2-3 95 and a nonionic oil-like additive obtained by controlled propoxylation of phenolic fractions from coal coking tars in amount of 0.02-1 95 by mass of coal, while the propoxylated phenolic fractions are ethoxylated, the heavy hydrocarbon is selected from anthracene oils, gas scrubbing oils or their mixture (RF Patent Mo 2014350, 2005).

This method is also complicated and requires significant operational costs.

The closest in essence and in terms of the effect achieved, and which is taken as the closest analogue, is the composition for the separation and enrichment of man-made raw materials, which is a heavy magnetite-clay-water suspension with a dry matter content of about 80 95, as well as an anionic dispersant present in an amount of approximately 595% by weight of the specified solids content, and the anionic dispersant is selected from the group consisting of lignosulfonate and ammonium naphthalene sulfonic acid condensate polymer (Patent 5 Mo 5288671 A, 1994).

The disadvantage of this composition is the use of quite expensive chemical reagents, which evaporate during the use of the composition, which requires the removal of their aggressive vapors from the working area, which, in turn, leads to an increase in the cost of using the composition and environmental pollution.

The useful model is based on the task of creating a heavy suspension for the separation and enrichment of solid combustible, ore and non-ore minerals, technogenic and secondary raw materials, using a relatively inexpensive dispersing agent that is easy to prepare, is stable during storage and, while maintaining the efficiency of separation and enrichment , provides the opportunity to create ecologically clean production.

The task is solved by creating a heavy suspension for the separation and enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials, consisting of a liquid medium formed by water, particles of enriched material (rock) and carbonate rock, in which, according to the useful model, carbonate rock with grain sizes from 0.01 μm to 25 mm is used, and the water-to-rock mass ratio is from 20:1 to 1:5, with a suspension density from 1050 to 4000 kg/m3.

At the same time, crushed calcium carbonate rocks (as dispersing agents) are used, the physicochemical properties of which ensure high flotation qualities of the suspension and, accordingly, an effective solution to the task.

At the same time, according to a useful model, calcite (CaCO3) and/or aragonite (CaCO3), and/or dolomite (CaCO3-MdSoO»3), and/or magnesite (Mas) are used as carbonate rock.

To gradually increase the density of the suspension, at least one weighting agent or a combination of weighting agents from the list is additionally introduced into it: ferrosilicon, magnetite, argillite, siltstone, calcium chloride (Sassi), zinc chloride (7pSi2), sodium chloride (Masi)) in a ratio to water from 0.0001:1 to 4:1 (see table).

Table 0.99-10-8

The content of extractables at 1570 o fractions Y 087-10-68 2.6-10-5 (at 12 70) at 2570

Solubility at

Gai DRINK AFTER 18 7C g/100g of aqueous 013 0.19 3.2 1.06 CO2 solution 825, passes into the shell 0-0 DEN tan

Limestone, marble, . I I plowed lime spar, It is formed pdroterMal o chalk, egg and o and at T more than 30 "C and the origin or

Natural sources of shells, bones (transitions into|

Indicators such as porosity and water saturation coefficients are also important for ensuring the necessary properties of heavy suspension for the separation and enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials.

The above information on the properties of calcite, aragonite, dolomite and magnesite indicate that these rocks can be easily crushed to the degree necessary to ensure high flotation properties of the suspension, which, taking into account their density, water saturation, porosity and other indicators, ensures high separation efficiency and beneficiation of solid ore and non-ore minerals, technogenic and secondary raw materials.

Preparation of heavy suspension, which is the object of a useful model, is carried out in the following order.

Rock calcium carbonate (CaCO3) is crushed by one of the known methods to grain sizes from 0.01 μm to 25 mm and mixed with water, in the ratio of rock and water from 20:11 to 1:5 parts by weight to a density of 1050-4000 kg/ m3, depending on the characteristics of the enriched raw material. Further, the enrichment process takes place in a flotation tank of one of the well-known designs. (Vorobyev N.Y. Enrichment of useful minerals: a guide for students of specialty 1-48 01 01 "Chemical technology of inorganic substances, materials and products" specialization 1-48 01 01 01 "Technology of production of mineral fertilizers, salts and alkalis" / N. I . Vorobyev, D. M. Novik. Minsk: BSTU, 2008. - 174 p.).

The density of the resulting suspension is determined by laboratory or calculation depending on the physical and chemical properties of the enriched raw material.

Stability of the suspension density during enrichment is achieved by additional addition of water or (and) crushed calcium carbonate rock (Sasoz).

To gradually increase the density of the suspension, at least one weighting agent or a combination of weighting agents from the list is additionally introduced into it: ferrosilicon, magnetite, argillite, siltstone, calcium chloride (Sassi), zinc chloride (7pSi), sodium chloride (Masi)) in relation to water from 0.0001:1 to 4:1.

The uniformity of the density of the suspension in the volume of the flotation tank is achieved by the constant supply of the suspension and enriched raw materials, the combination of horizontal and upward flows of the suspension, constant mixing with the help of known devices and mechanisms

Zo (Handbook on beneficiation of ores. Basic processes / Lod, edited by O.S. Bogdanova, 2nd ed., reworked and supplemented - M., Nedra, 1983). The density of the suspension is controlled using well-known sensors (V.M. Avdokhin. Ugly beneficiation: Textbook for universities: V 2 vol. - M.: Izdatelstvo "Gornaya kniga", 2012. - Vol. 2. Technologies. - 475 p.).

Regulation of the viscosity of the suspension is achieved by controlled supply of compressed air by known devices.

In the process of use, the suspension becomes substandard. Regeneration of the suspension is carried out by adding water or crushed rock of calcium carbonate CaSoOz in the amount determined by the results of monitoring the density of the suspension.

The novelty of the useful model consists in the use as a component of a heavy suspension for the separation and enrichment of solid combustible, ore and non-ore minerals, technogenic and secondary raw materials of a relatively inexpensive dispersing agent, which is easily prepared, is stable during storage and, while maintaining the efficiency of separation and enrichment, provides the possibility of creating ecologically clean production.

The proposed technical solution based on a useful model has been tested in practice, is carried out using known carbonate-calcium rocks and conventional equipment and mechanisms used for the separation and enrichment of solid ore and non-ore minerals, man-made and secondary raw materials, do not contain substances, elements or processes, which would be impossible to reproduce at the current stage of development of science and technology, from which it follows that it is industrially suitable. In the known sources of information, similar suspensions based on carbonate-calcium rocks of a similar purpose with the specified distinctive essential features and advantages have not been found, which is confirmation of the achievement of the specified technical result, and therefore is considered to be eligible for legal protection.

The technical advantages of the proposed useful model, in comparison with the closest analogue, include: - environmental cleanliness of the working component of the suspension and its preparation technology; - avoiding the use of chemically aggressive reagents; - technological simplicity of suspension preparation and use;

- the use of an inexpensive dispersing agent (agents), which is (are) easily prepared, is stable (stable) during storage and while maintaining the efficiency of separation and enrichment; - ensuring the possibility of creating ecologically clean production.

The economic effect of the implementation of the proposed useful model, in comparison with the use of the closest analogue, is obtained due to the use of cheaper agglomerating agents in the creation of the suspension and the reduction of their quantity, the possibility of using the suspension not only for the separation and enrichment of solid combustible, ore and non-ore minerals, but and for the separation and enrichment of man-made and secondary raw materials.

The quintessence of the proposed useful model is that the proposed heavy suspension provides the possibility of separation and enrichment not only of solid combustible, ore and non-ore minerals, but also man-made and secondary raw materials in a heavy environment created using carbonate-calcium rocks without the use of additional materials ( flotation reagents), which determines the above-mentioned advantages of the proposed useful model.

Claims (3)

USEFUL MODEL FORMULA 1. A heavy slurry for the separation and enrichment of solid combustible, ore and non-ore minerals, man-made and secondary raw materials, consisting of a liquid medium formed by water, crushed beneficiated material and carbonate rock, characterized by the fact that carbonate rock with dimensions grains from 0.01 μm to 25 mm, and the mass ratio of water to rock is from 20:1 to 1:5, with a suspension density from 1050 to 4000 kg/m3. 2. The suspension according to claim 1, which differs in that calcite (CaCO3) and/or aragonite (CaCO3), and/or dolomite (CaCO3-MdSoO»3), and/or magnesite (Mas) is used as a carbonate rock. 3. The suspension according to any of claims 1, 2, which differs in that in order to gradually increase the density of the suspension, at least one weighting agent or a combination of weighting agents from the list is additionally introduced into it: ferrosilicon, magnetite, argillite, siltstone, calcium chloride (Sasi") , zinc chloride (7pSig2), sodium chloride (mass) in a ratio of 0.0001 1 to 4:1 to water.