SU744020A1 - Dust depressing composition - Google Patents

Description

The invention relates to compositions intended to suppress piti during the operation of dusting objects: unpaved airfields and roads, ash of shafts and sludge storages of thermal power plants, geological sites and other objects. Known dedusting emulsion for processing dirt roads Ij The composition of the emulsion includes the following components, wt.%: Calcium chloride Base Potassium chromate 0.1-0.5 Polyglycol residues 9.5-17.9 The emulsion has the following disadvantages: the presence of calcium chloride in the composition of the emulsion corrosion equipment; its use causes a large water saturation of soils caused by the good solubility of polyglycols in water. Closest to the proposed by the technical essence of the composition for the suppression of gallium, including a polymeric binder and an emulsifier. As a polymer binder, various rubbers are used: natural, dienestyrene, polyisoprene. To stabilize the properties of the composition, substances such as trichlorethylene, methanol, and hydrochloric acid are introduced. The disadvantages of such an emulsion include the complexity of the composition, and the deficiency of the binder. In addition, stabilizing additives have a detrimental effect on the human body during the preparation and processing of the soil. The purpose of the invention is to increase the efficiency of desalting. The goal is achieved by the use of a polymeric binder, a distillation residue of styrene (KORS) and an emulsifier — sodium salts of fatty acids with the number of carbon atoms from 1.0 to 18 or polyvinyl alcohol and water at the following ratio of components, weight, . h .: The bottom residue of styrene 30-70 distillation Salts of fatty acids or polyvinyl alcohol 0.2-0.6 Water. Up to 100 Cubic A residue of styrene distillation consists of styrene polymers of different composition and structure (for example, polystyrene, in koto

It can vary from 30 to 70%) and is a thick brown liquid with a specific gravity of 1.0-1.22 g / cm and a viscosity at 5 poises. CORS dissolves well in a toluene solvent and is a large waste of synthetic rubber plants and today; The time is mainly burned, not in the use of the national household.

Different surfactants are used to obtain the composition including KORS. Polymer emulsions irradiated on emulsifiers of the type of polyvinyl alcohol (salvara) and sodium salts of fatty acids from C from 10-18 are the most rational for these purposes in terms of the lifetime of the emulsions and the economic feasibility.

Variants of the proposed composition for suppressing dust are given in Table. one.

Table 1

Option weight h

Components

30 50 70 0.6 0.3 0.2 To 100 To 100 To 100

The test results are presented in Table. 2. Table 2

Note

It has been established that the optimal humidity range at which the most rapid penetration of emulsions into the soil is for sand is 2-10%, and for sandy loam and loam 4-8%.

The emulsion is a fluid fluid with a lifespan of up to 5 days. It is easily sprayed and penetrates the ground well.

In the case of slurry and heavy loam, a film is formed.

The mechanism for the formation of the protective layer can be explained as follows. Polymer emulsion penetrates

60 into soil, in contact with which it disintegrates into the main constituents, i.e., KORS + emulsifier + yes, CORCE eventually polymerizes, sticks together individual soil particles,

Claims (2)

45 form an elastic film. The proposed composition can be used to control U with the dustiness of soils of various grain-size composition from sandy to loamy. The recommended optimum flow rate of the polymer emulsion is 1 and 1.2 l / m, with which an elastic film 3–4 mm thick is formed on the surface of the soil. The formed film does not pa3h "water and possesses good resistance to frost (it can withstand 30 cycles of freezing and thawing without destruction). Example 1. The experiments were carried out in steaks of nng containers in size d 4.5 with h 10 cm, into which they placed soil and compacted to the bulk weight of the soil skeleton of 1.2-1.3 g / cm (with an initial moisture content of 0.15 -12%). The weight of the soil is assumed to be 100 g. The estimated amount of the emulsion KORS (50% concentration), equal to 1.2 l / m, is poured over the surface of the soil, the rate of penetration of the emulsion into the soil is determined and the height of the soil layer is measured, which is impregnated with the emulsion Corsa. The effect of soil moisture on the rate of penetration of an emulsion of CORS is determined. Example 2. To investigate the effectiveness of jfpyHTOB dedusting with a KORS emulsion using the n) method, special tests were carried out in a wind tunnel at a flow rate of 20.4 m / s. Experiments have shown that the dust concentration after the produvka of samples in the pipe is equal to O, i.e. the soils treated with the specified composition are not dust lt. The use of the proposed composition will allow the use of non-diluted waste from chemical plants to suppress dust of great national importance, as well as allow replacing various organic staining, hygroscopic salts and other reagents currently used for these purposes. In addition, the use of this composition will increase the duration of dedusting action of the reagents used from 1 to 6 months. In addition, it is possible to spray the emulsion from the air for dust suppression in places that are difficult for ground-based equipment. DETAILED DESCRIPTION OF THE INVENTION A dust suppression composition comprising a polymeric binder and an emulsifier, characterized in that, in order to increase the efficiency of dedusting, it contains as a polymeric binder the bottom residue of the distillation of styrene, as an emulsifier, sodium salts of fatty acids with a carbon atomic ratio of 10 up to 18 or polyvinyl alcohol and water in the following ratio of component parts by weight; VAT residue of styrene 30-70 rectification Salts of fatty acids or polyvinyl, alcohol 0,2-oV6 water Up to 100 Sources of information, taken into account rtpK examination 1. Author's certificate of the USSR 391214, cl. E 01 G 11/24, 1973. 2. The patent of Great Britain 1411855, cl. From 08 to 9/00, 1973.