RU2540671C2 - Emulsifying composition for production of emulsion explosives (versions) - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: emulsifying composition in accordance with version 1 contains liquid petroleum product, polyisobutylene, technical ether of alkenyl-(polyisobutylene)-succinic anhydride with triethanolamine and/or urea alkenyl-(polyisobutylene)-succinimide and malenic anhydride, with composition having acidic acid not higher than 33 mg KOH/g, contains malenic anhydride with acidic number not higher than 1140 mg KON/g. Emulsifying composition in accordance with version 2 contains liquid petroleum product, polyisobutylene, technical nitroether of alkenyl-(polyisobutylene)-succinic anhydride. As liquid petroleum product compositions contain Diesel fuel, or kerosene, or industrial oil, or petroleum extract, or their mixtures.

EFFECT: compositions provide completeness of their detonation with increase of storage term and extend arsenal of emulsifying compositions for emulsion explosives.

6 cl, 1 tbl

Description

The invention relates to the field of emulsifying compositions used in the manufacture of emulsion explosives (explosive substances) for mining and other types of industrial blasting operations.

Studies have established that the most stable emulsions of aqueous solutions of oxidizing salts in a hydrocarbon fuel medium are obtained if they contain an emulsifier based on the condensation products of alkenyl- (polyisobutylene) succinic anhydrides with amino derivatives of alkanolamines or polyamines, or a mixture of alkenyl- (polyisobutylene) - succinic anhydrides and their amino derivatives, or a mixture of these products with esters of fatty acids and polyhydric alcohols (see, for example, RF patents Nos. 2048881, 2155094, 2224587 and materials of application No. 20004109998/02 (010677 ), Australian Patent AC-B-40006/85, USA No. 4840687).

These emulsifying compositions provide the majority of practical tasks in terms of the application of emulsion explosives. However, some of them have particularly high operational requirements. In particular, this applies to long-term storage of emulsion explosives (cartridges) used in various climatic conditions, especially in winter at temperatures up to minus 50 ° C. Therefore, stabilizers are additionally introduced into the hydrocarbon combustible phase (medium) at the stage of preparation of the emulsion. From literature and patent sources it is known that fusible hydrocarbons with a dropping point above 60 ° C are most often used as stabilizers. Before receiving the emulsion, they are heated above the dropping point and introduced into the emulsifier solution in oil. When emulsifying, they do not interfere with the process, and when cooling, having tensile properties, they form elastic surface films that stabilize microdroplets of an oxidizing solution and gas sensitizing inclusions (bubbles). An example of emulsion explosives containing a stabilizer from petrolatum or bitumen is the composition according to US Pat. RF №1819253, which upon sensitization by gas bubbles satisfactorily detonated after three months of storage. In addition to stabilizing gas bubbles, fusible stabilizers simultaneously significantly slow down the crystallization process of the components of an aqueous solution of oxidizing salts. So, in the patent of the Russian Federation No. 2143488, compositions stabilized with petrolatum, paraffin or bitumen in an amount of from 0.5 to 4% are described, which are able to detonate after six months of storage at an optimal level of sensitization. The hydrocarbon phase of this composition includes a solution in industrial oil (2-7%) of an emulsifier, a condensation product of a polyolefin with maleic anhydride (alkenyl succinic anhydride) and alkanolamine, preferably triethanolamine or polyol glycerol, or polyglycerol, or pentaerythritol products, or a mixture fatty acid esters of a C ₁₇ -C ₂₅ fraction, or tall oil fatty acid esters with glycerol or polyglycerol or pentaerythritol; petrolatum 0.5-4.0%, or 1-2% paraffin, or 0.5-2.5% bitumen.

Industrial testing of emulsion explosives at plants revealed a number of technological shortcomings of the hydrocarbon phase containing fusible stabilizers.

First, the introduction of fusible stabilizers in the hydrocarbon phase of the emulsion explosives is associated with the need to heat and melt them before mixing with oil and an emulsifier.

Secondly, the hydrocarbon phase obtained after mixing during cooling is able to solidify at a temperature of about 40 ° C, and therefore at all technological stages it is required to maintain the temperature within 60-85 ° C and, therefore, constantly heat all pipelines, dispensers, devices. This increases the energy consumption of the process and at the same time does not completely exclude the possibility of solidification of the hydrocarbon phase in technological communications and devices in case of failures in the heating system.

As the closest analogue, RF patent 2317281 was adopted. An emulsifying composition for emulsion explosives containing industrial oil and an emulsifier, using condensation products of alkenyl- (polyisobutylene) succinic anhydride with amino derivatives, or a mixture of aminated and starting alkenyl- (polyisobutylene) - succinic anhydride, or condensation products of alkenyl- (polyisobutylene) succinic anhydride with amino derivatives and fatty acid esters of tall oil or fatty acids of fraction C ₁₂ -C ₁₆ with polyatomic a pirte, or a mixture of the aminated and starting alkenyl- (polyisobutylene) succinic anhydride and fatty acid esters of tall oil or fatty acids of the C ₁₂ -C ₁₆ fraction with a polyhydric alcohol, taken in an amount that provides a synergistic effect when mixing surface-active substances moreover, the polyhydric alcohol is selected from the group of pentaerythritol, glycerin, polyglycerol, sorbitol, characterized in that it additionally contains polyisobutylene with a molecular weight of 500-2000 as an emulsion stabilizer in the following the general ratio of components, wt.%: emulsifier 20-70; emulsion stabilizer 2-30; industrial oil - the rest. The emulsifying composition may contain fatty acid esters of tall oil or fatty acids of fraction C ₁₂ -C ₁₆ with polyhydric alcohol in an amount of 5-34 wt.% And additionally sorbitan monooleate in an amount of 5-50 wt.%.

However, the prototype containing a stabilizer for emulsion explosives used for the manufacture of emulsion explosives, provides detonation only during storage for up to six months.

The objective of the proposed technical solution is to improve emulsifying compositions for the production of emulsion explosives, ensuring detonation of emulsion explosives with a longer shelf life, expanding the arsenal of emulsifying compositions for emulsion explosives.

The technical result is achieved in that the emulsifying composition for the production of emulsion explosives (option 1), containing a liquid petroleum product and polyisobutylene, further comprises a technical ester of alkenyl- (polyisobutylene) succinic anhydride with triethanolamine and / or alkenyl- (polyisobutylene) succinimide urea, maleic anhydride in the following ratio, wt.%: technical ester of alkenyl- (polyisobutylene) succinic anhydride with triethanolamine and / or alkenyl- (polyisobutylene) -succinimide urea 19.0-66.0; polyisobutylene 1.0-33.0; maleic anhydride 0.01-1.0; liquid petroleum product - the rest, while the emulsifying composition has an acid number of not more than 33 mg KOH / g, contains maleic anhydride with an acid number of not more than 1140 mg KOH / g and as a liquid oil contains diesel fuel, or kerosene, or industrial oil, or petroleum extract, or mixtures thereof.

The emulsifying composition for the production of emulsion explosives (option 2), containing liquid petroleum product and polyisobutylene, additionally contains technical nitroester alkenyl- (polyisobutylene) succinic anhydride in the following ratio, wt.%: Technical nitroester alkenyl- (polyisobutylene) succinic anhydride 19 0-67.0; polyisobutylene 1.0-33.0; liquid petroleum product - the rest, while it contains diesel fuel, or kerosene, or industrial oil, or petroleum extract, or mixtures thereof, as a liquid petroleum product.

The proposed emulsifying compositions provide the completeness of detonation of emulsion explosives with an increase in the shelf life compared with the emulsifying composition of the prototype.

Option 1. The optimal content of technical ester of alkenyl- (polyisobutylene) succinic anhydride and / or alkenyl- (polyisobutylene) succinimide from 19.0 to 66.0 wt.%. If less than 19.0 wt.%, It has insufficient emulsifying ability, if more than 66.0 wt.%, It is not technologically advanced (increased viscosity).

If the content of polyisobutylene is less than 1.0 wt.%, Then it does not affect the stability of the emulsion, if more than 33.0 wt.%, It reduces the effectiveness of the emulsifying ability of the composition.

When the content of maleic anhydride is less than 0.01 wt.%, There is no significant effect on gas saturation (sensitization), and at more than 1.0 wt.% Uneven gas saturation is observed.

If the acid number is more than 33 mg KOH / g, then emulsion explosives with a reduced shelf life are obtained.

When the acid number of maleic anhydride is not more than 1140 mg KOH / g, an economically viable emulsifying composition with an acid number of not more than 33 mg KOH / g is obtained.

Liquid oil is a component that reduces the viscosity of the proposed composition. As a liquid petroleum product, the emulsifying composition contains diesel fuel, or kerosene, or industrial oil, or oil extract, or mixtures thereof.

Option 2. The optimum content of technical nitroester alkenyl- (polyisobutylene) succinic anhydride from 19.0 to 67.0 wt.%. If less than 19.0 wt.%, It has insufficient emulsifying ability, if more than 67.0 wt.%, It is not technologically advanced (high viscosity).

If the content of polyisobutylene is less than 1.0 wt.%, Then it does not affect the stability of the emulsion, if more than 33.0 wt.%, It reduces the effectiveness of the emulsifying ability of the composition.

Liquid oil is a component that reduces the viscosity of the proposed composition. As a liquid petroleum product, the emulsifying composition contains diesel fuel, or kerosene, or industrial oil, or oil extract, or mixtures thereof.

Comparison of the use of the effectiveness of the emulsifying composition of the prototype and the proposed emulsifying compositions was carried out to determine the completeness of the detonation of samples of emulsion explosives depending on their shelf life.

The completeness of detonation of samples (cartridges) in a polymer shell with a diameter of 90 mm and a mass of 4 kg of emulsion explosives with a prototype emulsifying composition and the proposed emulsifying compositions was determined according to GOST 14839.19-69.

Comparative experimental data on determining the completeness of detonation of emulsion explosive samples are given in the following table.

Comparative experimental data on determining the detonation completeness of samples p / p The name of indicators Emv with a prototype emulsifying composition with the proposed emulsifying compositions Option 1 Option 2 one Components, wt.% 1.1 Ammonium Nitrate Particles 25 25 25 25 25 25 1.2 Gasified inverse emulsion 75 75 75 75 75 75 1.2.1 Liquid oil 4.3 4.3 4.3 4.3 4.3 4.3 1.2.2 Water 13.7 13.7 13.7 13.7 13.7 13.7 1.2.3 Ammonia and sodium nitrate 80 80 80 80 80 80 1.2.4 Emulsifying composition 2.0 2.0 2.0 2.0 2.0 2.0 1.2.4.1 Emulsifier - condensation products of alkenyl- (polyisobutylene) succinic anhydride with amino derivatives (triethanolamine) 70 twenty - - - - 1.2.4.2 Emulsion Stabilizer - Polyisobutylene thirty 2 - - - - 1.2.4.3 Industrial oil (liquid petroleum product) 0 78 79,99 1,0 47.5 8.2 48.0 32,0 1.2.4.4 Technical ester of alkenyl- (polyisobutylene) succinic anhydride with triethanolamine - - 19.0 66.0 - - - - 1.2.4.5 Polyisobutylene - - 1,0 32,0 33.0 25.0 33.0 1,0 1.2.4.6 Maleic Anhydride - - 0.01 1,0 0.5 0.8 - - 1.2.4.7 Urea Alkenyl- (Polyisobutylene) -succinimide - - - - 19.0 66.0 1.2.4.8 Technical nitro ester of alkenyl- (polyisobutylene) succinic anhydride - - - - - - 19.0 67.0 2 Shelf life, months 7 7 12.5 13 12.5 13 13.5 fourteen 3 Sample detonation completeness no there is there is

From the table “Comparative experimental data for determining the completeness of detonation of samples”, it can be seen that there is no completeness of detonation of the investigated samples of emulsion explosives with a prototype emulsifying composition with a shelf life of 7 months, and there is completeness of detonation of the studied samples of emulsion explosives with the proposed emulsifying compositions with a longer shelf life of 12, 5 to 14 months.

Therefore, the proposed emulsifying compositions for the production of emulsion explosives provide the claimed technical result - increase the shelf life of emulsion explosives, expand the arsenal of emulsifying compositions for emulsion explosives.

Claims (6)

1. An emulsifying composition for the production of emulsion explosives containing a liquid petroleum product and polyisobutylene, characterized in that it further comprises a technical ester of alkenyl (polyisobutylene) succinic anhydride with triethanolamine and / or alkenyl (polyisobutylene) succinimide urea, maleic anhydride the following ratio of components, wt.%:
Technical alkenyl ether (polyisobutylene) succinic anhydride with triethanolamine and / or alkenyl- urea (polyisobutylene) succinimide 19.0-66.0 Polyisobutylene 1,0-33,0 Maleic Anhydride 0.01-1.0 Liquid oil rest. 2. The emulsifying composition according to claim 1, characterized in that it has an acid number of not more than 33 mg KOH / g 3. The emulsifying composition according to claim 1, characterized in that it contains maleic anhydride with an acid number of not more than 1140 mg KOH / g. 4. The emulsifying composition according to claim 1, characterized in that it contains diesel fuel or kerosene, or industrial oil, or an oil extract, or mixtures thereof, as a liquid petroleum product. 5. An emulsifying composition for the production of emulsion explosives containing a liquid petroleum product and polyisobutylene, characterized in that it additionally contains a technical nitroether alkenyl- (polyisobutylene) succinic anhydride in the following ratio, wt.%:
Technical alkenyl nitro-ester (polyisobutylene) succinic anhydride 19.0-67.0 Polyisobutylene 1,0-33,0 Liquid oil rest. 6. The emulsifying composition according to claim 5, characterized in that it contains diesel fuel, or kerosene, or industrial oil, or oil extract, or mixtures thereof, as a liquid petroleum product.