SU1634801A1 - Composition for dust and gas suppression during blasting operations - Google Patents

Abstract

The invention relates to explosive works, namely to borehole downhole charges to suppress dust and gases during an explosion. The purpose is to increase the effective process of dust suppression by increasing the yield of liquid fasc and increasing its degree of dispersion during the explosion of explosives. The composition contains the following components May% liquid glass 5–8, ammonia per nitrate 2.5–3.5, foam-based bee substance PO-6 5–15, water up to 100 Under the action of explosive gases on a hydrogel spar Aboi C, a shock wave passes through it, destroying thixotropic zi, and most of the hydrogel Escapes into liquid phase. Explosive gases are mixed with liquid phase. The presence in its composition of a surface actinizing foam substance (PO 6) promotes the formation of foam. PS active substances have a low surface tension, well dampen the dust formed during lashing and contribute to its sticking and precipitating on the 1 tab i se surface (L

Description

The invention relates to blasting, for example, in open pits and can be used as a damming of borehole charges to suppress dust and gases in an explosion.

The purpose of the invention is to increase the efficiency of dust suppression by increasing the yield of the liquid phase and increasing the degree of its dispersion in the explosion of explosive charge.

The composition contains the components with the following ratio May

Liquid glass5-8

Ammonium nitrate2,5-3,5 Foaming agent PO-6 5 15

WaterUnder 100

Under the action of explosive gases on the gel-like composition, a shock wave discharges thixotropic bonds initially passes through it. Most of the hydrogel goes into the LIQUID phase. The explosion gases are then mixed with the liquid phase. to the formation of foam, the powders of which rise to the atmosphere, it forms in the form of the smallest droplets Foam and small droplets, due to the presence of surface-active substance, PO 6 have a low surface tension, wet it well t the dust formed during the explosion and settle to the surface (i am

Pricher Compositions of liquid glass and glass 4 9 May%, ammonia seshgry 2

O5 CO 00

4 May%, blowing agent 4-16% by weight, the rest water up to 100% by weight by mixing in a vessel. The release of the liquid phase (in% to the total mass of the gel-forming composition) was determined on a model that has the same parameters as the explosive well in a quarry. The effectiveness of dust absorption was established in the shock tube.

The results of determining the amount of liquid phase released and the effectiveness of dust suppression are shown in the table.

As can be seen from the table, the main characteristics of the proposed composition of the hydrogel

a decrease in the yield of the liquid phase with the destruction of the hydrogel by the gases of the explosion and the reduction of dust suppression. An increase in PO-6 concentration of more than 15.0% leads to hydrogel decomposition.

Therefore, the optimum content of the PO-6 blowing agent in the proposed composition is 5.0–15.0%, which corresponds to the boundary values of the components included in the proposed substance.

Claims (1)

Invention Formula Blast Gas Damping Formulation Comprising Liquid Stack exceed the same magnitudes of the known co-5 lo, ammonium nitrate and water, are different. However, if the concentration of the liquid glass is less than 5% and the ammonium nitrate is less than 2.5%, the hydrogel does not form. The concentration of the liquid glass is more than 8.0% and the ammonium nitrate is so that, in order to increase the efficiency of the dust suppression process, increasing the degree of its dispersion in the explosion of explosive charge from the well, it additionally more than 4% is impractical, since it is 20 but contains the foaming agent PO-6 leads to a decrease in the release of the liquid phase in the explosion and to an increase in the cost of the hydrogel. Therefore, the optimum content of liquid glass in the proposed composition is 5.0–8.0%, and ammonium nitrate is 2.5–3.5%. The decrease in the concentration of the blowing agent PO-6 of less than 5.0% leads to 25 in the following ratio of components, wt.%: Liquid glass5-8 Ammonium nitrate 2.5-3.5 Foaming agent PO-6 5-15 WaterUnder 100 ammonium nitrate and water, characterized in that, in order to increase the efficiency of the dust suppression process by increasing the yield of the liquid phase and increasing its dispersion during the explosion of the explosive charge from the well, it additionally contains a foaming agent PO-6 in the following ratio of components, wt.%: Liquid glass5-8 Ammonium nitrate 2.5-3.5 Foaming agent PO-6 5-15 WaterUnder 100