RU1802160C - Composition for dust control - Google Patents

Abstract

Usage: processing of flaming surfaces. The inventive composition contains lignosulfonate in combination with synthetic latexes and water in the following ratio of components, May.%: Lignosulfonate 4.0-12.0, latex 0.5-1.0, water - the rest. 1 tab.

Description

The invention relates to mining and can be used to combat. n, spruce on open flaming surfaces ((dumps, open warehouses of ore materials, etc.).

 The aim of the invention is to increase the efficiency of dust control by increasing the resistance of the treated surface to rainfall.

This goal is achieved in that the composition containing the polymer binder - lignosulfonates and water, additionally contains synthetic latex as a structurant in the following ratio, wt.%:

Lignosulfonates 4.0-12.0 Latex 0.5-1.0 Water Else EXAMPLE 1. For experimental verification of the proposed composition, we obtained vines (seven mixtures of ingredients were prepared, five and five of which showed optimal results. B The experiments were used as a polymer binder, Lignosulfonate, and latex, methyl styrene latex SKMS-30 R P. The compositions were prepared by emulsification

components in water and mixing them. The aqueous mixture thus prepared was sprayed over a coal dust sample on a substrate at a liquid flow rate of 3.0 l / m2.

. One day after processing and drying of the dust, the substrate with the fixed sample was placed in a wind tunnel through which an air stream was blown at a speed of 30 m / s for an hour. The dust blown off the surface of the sample was collected, weighed, and the dustiness of the air was determined in mg / m3. Wettable ™ dust was judged by wetting speed contacts determined from impregnation kinetics data of the composition of the coal powder columns. Moisture retention was determined one day after weight treatment.

In order to characterize the resistance of the treated surface to the effect of precipitation, the dried surface of the fixed dust sample was treated with a droplet liquid in the amount corresponding to a 1.5 month precipitation norm (a monthly norm of 25 mm was accepted). The dustiness of the air in this case was also determined after 24 hours when tested in a wind tunnel. Similar

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comparative tests were conducted with the prototype formulation.

The experimental results are shown in the table,

After processing the dusty surface, a strong elastic crust is formed on it, preventing dust formation at high air flow rates. Optimal for fixing are lignosulfonate concentrations of 4-12%, latex 0.5-1.0%. The lower concentration limit depends on the effectiveness of the composition. The upper limit of the concentration of latex and lignosulfonate is associated with a deterioration in the wettability of the system with an increase in viscosity and economic considerations.

As the experiments showed, in the absence of action on the fixed sample of moisture simulating precipitation, the efficiency of the claimed composition and prototype is dustproof. The effect of precipitation leads to a sharp decrease in the binding ability of the composition of the prototype. Content

dust in the air blown off the surface,

treated with the inventive composition also increases, but remains at the level of sanitary standards. Higher water holding capacity of dust treated with the proposed composition. These features significantly distinguish the claimed technical solution from the prototype and can increase the efficiency of dust control.

Example 2. In order to verify the effect of the composition under production conditions, a mixture was prepared containing liglosulfonate 5.0%, methyl styrene latex - SKMS-ZORP 0.5%, water 94.5%. The prepared mixture was pumped into the tank of a car equipped with an irrigation water monitor. The resulting composition was processed on a site with a coal bay at the base of the stacks in the territory of an open coal warehouse. The consumption of the mixture was 3.0 l / m2. Ef 5

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The effectiveness of the composition was evaluated by the dustiness of the air and humidity of the treated bayonet.

The formation of a surface crust, which binds dust and retains moisture, is noted on the treated surface. The moisture content of treated coal dust is 1.0-1.2 times more than untreated. At low air speeds. flow differences in the dustiness of the air over the treated and untreated surface are not significant. Differences were noted at high wind speeds of 17 and 23 m / s. In this case, the difference in air dust content over the treated and untreated surfaces is 2.5-3.9 mg / m3.

Thus, the tests showed that the proposed composition allows to increase the efficiency of dust control and the duration of the composition by increasing the resistance of the fixed surface to the effects of precipitation by 10 or more times; to increase the effectiveness of dust control by increasing the moisture holding capacity of dust treated with the proposed composition by 1.2 times; to reduce by 2-3 times the consumption of the main polymer binder composition - lignosulfonate by enhancing its action with small additives of latex.

Claims (1)

SUMMARY OF THE INVENTION A dust control composition comprising lignosulfonate and water, characterized in that, in order to increase the effectiveness of dust control by increasing the resistance of the resulting coating to precipitation, it additionally contains synthetic latex in the following ratio of components May. %: Lignosulfonate 4.0-12.0; Synthetic latex 0.5-1.0 Water Else Dust Control Test Results