RU2184095C1 - Blend for detoxification and lithification of domestic and industrial wastes, bottom sediments, sludges, and oil-polluted grounds - Google Patents

Abstract

FIELD: waste disposal. SUBSTANCE: invention, in particular, relates to production of artificial mineral blends for detoxification and lithification of viscous-plastic and solid wastes, in particular exhausted drilling fluids, oil-polluted grounds, and the like, containing toxic substances (heavy metal salts, polycyclic aromatic hydrocarbons, petroleum products, synthetic surfactants, radionuclides, etc.). Blend includes, %: aluminosilicate, 55-80; mineral, 5-10; lime, 10-30. Portland cement additionally contains 5-30% of dispersed organic sorbent, specifically peat, wood flour, crushed agricultural waste (for example chaff), and also sapropel. EFFECT: increased reliability of sorption of light hydrocarbons and negatively charged heavy metal complexes, cyanides, etc. 5 cl, 2 tbl, 2 ex

Description

 The invention relates to the production of artificial mineral mixtures intended for the neutralization and lithification of liquid, viscoplastic and solid household and industrial wastes and bottom sediments, sludges, in particular spent drilling fluids, oil-contaminated soils, etc. containing toxic compounds (salts of heavy metals, polycyclic aromatic hydrocarbons, petroleum products, synthetic surfactants, radionuclides, etc.).

 A known mixture for the neutralization and lithification of sludge from domestic and industrial effluents, containing a filter aid - limestone or various slags and quicklime with a CaO content of 82% in an amount of 60-80 wt.%. The pellets resulting from the interaction of the mixture with sludge are used in the charge of cupola furnaces or as a filler in the production of reinforced concrete products. In addition, the resulting product can be stored in dumps as artificial man-made soil, see Galkin Yu.A. et al. Technology for the disposal of sewage sludge from machine-building enterprises. - Chemistry and water technology, vol. 12, 6, 1990, p.25.

 The disadvantages of this mixture are the complexity of the sludge conversion technology, the high cost of high-quality lime used at a very high flow rate (60-80% by weight), the need for belt filters and the constant updating of a filter aid with a special composition.

 Also known is a mixture for the neutralization and lithification of sludge, as well as household and industrial waste and bottom sediments, including fly ash, aluminosilicate rock, lime, Portland cement and fine aggregate, see patent RU 2084417, cl. From 04 To 18/30, from 07.25.94.

 This mixture provides the neutralization of sludge and waste and their transformation into environmentally friendly soil, suitable for compact storage or for use in construction as local material.

 The disadvantage of this mixture is the fact that the aluminosilicate rock has the property of increased stickiness in the presence of moisture, which greatly complicates the process of mixing and compaction of the mixture; in addition, the materials resulting from the lithification of sludge and waste have low mechanical qualities, in particular low strength and elasticity, which limits their use in construction.

A known mixture for the neutralization and lithification of domestic and industrial waste, as well as bottom sediments, including aluminosilicate rock, lime, Portland cement, aniline complex compounds of copper and / or iron and polypropylene fiber in the following ratio, wt.%:
Aluminosilicate rock - 60-80
Lime - 5-15
Portland cement - 10-20
Aniline complex compounds of copper and / or iron - 1-3
Polypropylene fiber - 2-3
see RU 2162068, class From 04 To 33/00, from 07.28.1999.

 This technical solution is taken as a prototype of the present invention. It provides neutralization and lithification of household and industrial wastes, as well as bottom sediments, the mixture has a reduced stickiness, mixes easily with neutralized wastes or sediments and is well compacted; this solves the problem of improving the mechanical properties of the obtained material.

However, the disadvantage of this mixture is that it does not sufficiently absorb light hydrocarbons: light oils, kerosene and gasoline fractions of oil, various organic solvents, etc. This is explained by the fact that this mixture does not prevent the desorption of light hydrocarbons to the required extent, since the sorption-active components of the mixture are inorganic colloidal and mineral-matrix systems that do not sufficiently hold non-ionic organic substances (in particular, light hydrocarbons) and negatively charged complexes of heavy metals (Cr ^5- ; V ^5- and others), cyanides, etc. substances.

 The present invention is based on the solution of the problem of creating a mixture for the neutralization and lithification of household and industrial wastes, bottom sediments, as well as drill cuttings and oil-contaminated soils, which would provide strong sorption of light hydrocarbons and negatively charged complexes of heavy metals, cyanides, etc. substances.

According to the invention, this problem is solved due to the fact that the mixture for the neutralization and lithification of household and industrial waste, bottom sediments, sludge and oil-contaminated soils, including aluminosilicate rock, lime and Portland cement, additionally contains dispersed organic sorbent in the following ratio of components, wt.%:
Aluminosilicate rock - 55-80
Lime - 5-10
Portland cement - 10-30
Dispersed organic sorbent - 5-30
while as a dispersed organic sorbent may contain peat, wood flour, crushed agricultural waste, such as chaff, as well as sapropel.

 The applicant is not aware of any sources of information containing information about technical solutions identical to the present invention. In this regard, in our opinion, we can conclude that the invention meets the criterion of "Novelty."

 Due to the implementation of the distinguishing features of the invention, the mixture acquires an important new property: the desorption of light hydrocarbon contaminants and negatively charged complexes of heavy metals, cyanides, and the like is prevented to the necessary extent; this is because the claimed mixture contains a dispersed organic sorbent having a large number of adsorption centers of various nature (donor and acceptor). In addition, organic sorbents are characterized by the absorption of pollutants due to polarization interaction, the exchange of radicals of organic compounds and the formation of intermetallic bonds of complex compounds.

 The applicant has not revealed any information about the influence of the distinguishing features of the invention on the achieved technical result. This allows us to conclude that the claimed technical solution meets the criterion of "Inventive step".

 Examples of the invention are given below.

 Example 1

For the neutralization and lithification of drill cuttings containing heavy metals, petroleum products, synthetic surface active substances and other pollutants, with the initial moisture content of 60%, a mixture was used, wt.%:
Aluminosilicate rock - 75
Lime - 5
Portland cement - 15
Peat Sorbent - 5
The mixture was prepared in a laboratory mixer, which was first introduced: aluminosilicate rock in the form of powder Cambrian clay, then ground quicklime (GOST 91-79) and Portland cement M400 (GOST 4772-84). Stirring was carried out for 3 minutes until a homogeneous mixture was reached. After that, an air-dry peat sorbent ground into powder was introduced into the mixer and stirring was carried out for 5 minutes. Then, drill cuttings were added to the prepared powder mixture in the ratio: one weight part of the cuttings (1: 1) per weight part of the powder mixture. After this, stirring was again performed for 10 minutes. From the obtained refractory mass, material samples were formed on a mechanical head in the form of cylinders 50 mm high and 50 mm in diameter, which were then kept in a desiccator for 30 days. Then, desorption of pollutants from the samples was determined in aqueous and ammonium acetate extracts. The results are shown in table 1.

 Example 2

For the neutralization and lithification of bottom sediments contaminated with heavy metals, oil, synthetic surface active substances and other toxic substances, many times exceeding the MPC, we used a mixture, wt.%:
Aluminosilicate rock - 55
Lime - 50
Portland cement - 15
Peat Sorbent - 25
The mixture was prepared in the same way as described in example 1. The bottom sediment was added to the prepared mixture in the ratio: for one weight part of the powder mixture, two weight parts of bottom sediments (1: 2) and mixed for 5 minutes. Samples similar to those of Example 1 were made from the obtained mixture, which were kept for 30 days in a desiccator and tested as in Example 1. The results are shown in Table 2.

 To implement the invention, inexpensive and non-deficient materials are used; conventional equipment, in particular mixers (mortar mixers, etc.), is used to prepare the mixture. These circumstances allow us to conclude that the invention meets the criterion of "Industrial applicability".

Claims (4)

1. A mixture for the neutralization and lithification of household and industrial waste, bottom sediments, sludge and oil-contaminated soils, including aluminosilicate rock, lime and Portland cement, characterized in that it additionally contains dispersed organic sorbent in the following ratio of components, wt. %:
Aluminosilicate rock - 55-80
Lime - 5-10
Portland cement - 10-30
Dispersed organic sorbent - 5-30
2. The mixture according to claim 1, characterized in that it contains peat as a dispersed organic sorbent.  3. The mixture according to p. 1, characterized in that as a dispersed organic sorbent contains wood flour.  4. The mixture according to p. 1, characterized in that as a dispersed organic sorbent contains crushed agricultural waste, such as chaff.  5. The mixture according to p. 1, characterized in that as a dispersed organic sorbent contains sapropel.

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