RU2739778C1 - Solid-fuel gas generating composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to chemical industry, and specifically to development of thermoplastic, gas-forming casting processed by casting, which can be used to actuate various mechanisms using energy of compressed gases, as well as model rocket fuel. Solid-fuel gas-generating composition contains ammonium nitrate as the main oxidising agent, as an additional oxidising agent - magnesium nitrate, as combustion catalysts - zinc and copper ammoniate nitrates, as the main combustible component - organic amine preferably with two or more amino groups, for example, hexamethylenetetramine, polyethylene polyamines, triethylene tetramine, with the following ratio of components, wt%: magnesium nitrate 10-22; ammoniate nitrate of zinc 1.5-30; ammonia copper nitrate 1.5-3.0; organic amine 10-18; ammonium nitrate is the rest.

EFFECT: possibility of complete realization of energy potential of ammonium nitrate as an environmentally friendly oxidiser of gas-generating compositions and model rocket fuel without use of expensive, scarce or toxic compounds in composition, high density of composition and rate of burning of gas-generating compositions based on ammonium nitrate.

1 cl, 2 tbl

Description

The invention relates to the chemical industry, in particular to the development of a thermoplastic, castable gas-generating composition based on ammonium nitrate and magnesium nitrate, which can be used to drive various mechanisms using the energy of compressed gases.

Quite a lot of gas-generating compositions based on ammonium nitrate are known and, as a rule, their disadvantages are reduced to two groups, either insufficient combustion rates both at atmospheric and at elevated pressure, combined, as a rule, with low energy, or a high content of expensive and scarce energy-saturated materials making these formulations expensive to manufacture.

Known by RF patent No. 2423339 "Solid fuel gas-generating composition", which contains an oxidizer, a fuel-binder and an energy additive. Ammonium nitrate of ZhV grade was used as an oxidant in the composition, methylpolyvinyltetrazole was used as a fuel-binder, and nitraminopropionitrile was used as an energy additive, with the following content of components, wt%: 60-70 ammonium nitrate ZhV grade, 5-20 methylpolyvinyltetrazole, 20 -25 nitraminopropionitrile. The composition does not contain toxic compounds in combustion products, has a low sensitivity to detonation and mechanical effects, high gas production at a low temperature of combustion products, good flammability of the compositions at an increased rate of their combustion under normal conditions.

Known gas-generating composition according to RF patent No. 2444505, containing ammonium nitrate brand ZhV, dinitramide guanyl urea, dicarbollyl iron complex and a fuel-binder based on methylpolyvinitetrazole plasticized with dinitrazapentane eutectic with 1,2,4-nitrotriazole. The invention provides a low content of condensed combustion products in the generated gases, a high combustion rate and gas production, and a low ignition delay time.

The invention according to the patent of the Russian Federation No. 2425821 relates to low-temperature solid-fuel gas-generating compositions based on ammonium nitrate, intended for gas generators used in fire extinguishing means, in devices for inflating various shells and for mechanisms operating under the action of compressed gases. The gas generating composition contains, wt%: ammonium nitrate 50.0-70.0, poly-N-methyl-5-vinyltetrazole 4.8-8.0, zinc oxide 1.0-2.0, nitraminopropionitrile 16.7- 27.3, 2,4-dinitro-2,4 diazapentane 7.2-11.6, diphenylamine 0.3-1.0.

The gas-generating composition has an increased specific gas production, has a high level of mechanical characteristics and is improved from an environmental point of view.

The above compositions provide a good level of energy characteristics, but contain expensive and scarce compounds such as derivatives of dinitramide and tetrazoles, nitro- and diazo compounds. This factor seems to nullify the most important advantage of ammonium nitrate as a cheap and environmentally friendly oxidant. Since environmental friendliness (environmental friendliness) depends not only on what products are formed as a result of the combustion of this particular composition at the time of its application on site. But equally on how many resources in general were spent on its production, since the use of resources, and in particular the generation of energy, is the main burden on the environment, and the final indicator of the amount of resources spent is the cost of the final product.

Also known is the gas generating composition according to the RF patent No. 2444554, published 02.07.2010 C09K 8/00. The invention relates to the oil industry, namely to the development of a thermoplastic solid fuel composition used for the intensification and production of oil. A thermoplastic solid fuel composition containing ammonium nitrate, rubber, a combustion catalyst contains powdered nitrile butadiene rubber with a particle size of 0.4-2.0 mm as a rubber, and potassium dichromate or ammonium dichromate as a combustion catalyst in the following ratio of components, wt .%: ammonium nitrate 79-88, specified rubber 8-18, potassium dichromate or ammonium dichromate 1-11. The technical result is an increase at an increased pressure of the combustion rate of the composition and a decrease in the content of solid combustion products.

This composition has a low cost, does not contain scarce components, but contains toxic chromium compounds, has a low density and low burning rate, as well as not high energy characteristics.

A technical problem is the creation of a solid fuel gas-generating composition with the maximum realization of the energy potential of ammonium nitrate, as well as the achievement of combustion rates acceptable for wide practical application without the use of expensive and toxic components at a minimum cost of the composition as a whole.

The technical result is the full implementation of the energy potential of ammonium nitrate as an environmentally friendly oxidizer of gas-generating compositions without the use of expensive, scarce or toxic compounds in the composition, as well as an increase in the density of the composition and the burning rate of gas-generating compositions based on ammonium nitrate.

The technical problem is solved, and the technical result is achieved due to the fact that the solid propellant composition containing ammonium nitrate as the main oxidant contains magnesium nitrate as an additional oxidant, zinc and copper nitrates as combustion catalysts, an organic amine as the main combustible component is preferably with two or more amino groups, for example, hexamethylenetetramine, polyethylenepolyamines, triethylenetetramine in the following ratio of components, wt%: magnesium nitrate 10-22; zinc nitrate ammoniate 1.5-30; ammonia copper nitrate 1.5-3.0; organic amine 10-18; ammonium nitrate - the rest.

Purpose of the components: ammonium nitrate is used as a base - a cheap and affordable source of light gases, as well as an oxidizing agent, magnesium nitrate serves as an additional oxidizing agent, being a very effective compound in this regard due to the small atomic mass of magnesium and the low heat of formation of the nitrate itself.

In this case, magnesium nitrate is almost completely dehydrated and without decomposition in the ammonium nitrate melt, subsequently effectively reducing the melting point of the entire composition. Magnesium oxide formed during combustion with a very developed surface also partially serves as a surface for catalytic processes.

Ammoniates of copper and zinc nitrates are the main catalysts for the combustion of fuels, especially amine ones, they also reduce the actual hygroscopicity of the compositions and strongly affect the physicomechanical properties, in particular, due to the formation of coordination polymer compounds with amines containing two or more amino groups. Amine combustibles, as already mentioned above, affect the mechanical properties of the composition. Hexamethylenetetramine was chosen as the main fuel due to a number of positive properties, such as low cost and availability, low toxicity, positive heat of formation, rather high density, and high hydrogen content.

The following table 1 shows a comparative characteristic of the properties of the RF patent No. 2444554 and the proposed invention:

Table 1.

Structure Gas capacity, l / kg Calculated specific impulse at 68 atm. Density,
g / cm ³ Burning rate at 2.5MPa, mm / s RF No. 2444554 850-960 200-210sec 1.5-1.55 Up to 4.4 Invention 740-960 216-245sec 1.68-1.78 8-12mm / sec

Also, the proposed composition has a low dependence of the combustion rate on pressure, which facilitates the design of gas generators and various engines.

The combustion rate at atmospheric pressure is 2-5mm / s, in the gas generator / engine 8-12mm / s, at which the speed is 8mm / s, is achieved already at pressures of no more than 10 atm, followed by a pronounced plateau.

EXAMPLES:

The manufacture of these solid fuel compositions is carried out in three stages:

1st stage: Fusion of ammonium nitrate with nitrates, nitrate ammonia, and / or oxides of the corresponding metals (Mg, Zn, Cu).

2nd stage: Fusion of the oxidizer obtained in the first stage with amine fuel. For this, the oxidizing agent is melted under constant temperature control of no more than 130 ° C, after which the temperature is reduced to 100-110 ° C, and amine fuel is introduced, with a further decrease in temperature to 90-100 ° C. At the same stage, it is possible to introduce additional fuel, reinforcing materials and technological additives. After the composition becomes homogeneous, it can be poured into molds.

Table 2 shows examples of solid fuel gas generating compositions in accordance with the invention

Component/
characteristic one 2 3 4 5 6 7 8 NH ₄ NO ₃ 63.5% 59.5% 62% 34.5% 56.2% 59.5% 59.5% 50.7% Mg (NO ₃ ) ₂ ten% 16% 22% 17.5% 12% 16% 16% 13.6% Zn (NO ₃ ) ₂ * 2NH ₃ 12.5% 9.5% 1.5% thirty% eleven% 9.5% 9.5% 8% Cu (NO ₃ ) ₂ * 2NH ₃ 3% 3% 1.5% 3% 2.8% 3% 3% 2.5% C ₆ H ₁₂ N ₄
hexamethylenetetramine eleven% 12% 13% 15% eighteen% 10.2% triethylenetetramine 12% polyethylene polyamine 12% aluminum 15% Burning rate at 1 atm, mm / sec 2 2.2 2.2 4.5 - 2 2 2 Burning rate at 25 atm, mm / sec 7-8 8 8 8 7-8 7-8 7-8 12 Gas capacity, l / kg 886 871 860 818 962 865 870 740 Calculated specific impulse at 68 atm. 225
sec 225.5 sec 228
sec 216
sec 215
sec 220
sec 221
sec 245
sec

The technical result is confirmed by the fact that the density of the compositions on average ranges from 1.68 to 1.78 g / cm ³ without the use of additional metal fuel, while the burning rate is 2-5 mm / s at 1 atm and 8-10 and mm / s at 25 -60 atm, the amount of gaseous products is 740-960 liters per kilogram. Also, due to the presence of zinc and copper nitrates in the composition of magnesium nitrate and unsaturated ammonia, in combination with amine fuel, low processing temperatures of the composition, 90-110 ° C, are achieved. In addition, these compositions are characterized by such properties as ease of casting into molds, good adhesion to a number of materials (mainly fabric and paper fibrous substrates), while booking pre-cast blanks, a number of polymers have good adhesion to the compositions, for example, epoxy resins, polyurethanes , iditol. Sufficient life time (long-term preservation of viscous-plastic properties after pouring the composition).

Claims (2)

Solid fuel gas-generating composition based on ammonium nitrate, characterized in that it includes magnesium nitrate as an additional oxidant, also nitrates of zinc and copper ammonates, an organic amine, preferably with two or more amino groups, for example hexamethylenetetramine, polyethylenepolyamines, triethylenetetramine, in the following ratio of components, wt .%: magnesium nitrate 10-22 zinc nitrate ammonia 1.5-30 copper nitrate ammonia 1.5-3 organic amine 10-18 ammonium nitrate rest