RU2145330C1 - Composition of phlegmatical cooling agent for controlled retarded burning out of solid rocket fuel charges, solid rocket fuel waste, and explosives - Google Patents

Abstract

FIELD: rocket fuels. SUBSTANCE: invention, in particular, relates to destruction of solid rocket fuel charges in rocket engine bodies and to process wastes of rocket fuels and explosives. Composition of invention contains, wt. %: hydrolyzed polyacrylamide with degree of hydrolysis 10-25 mol % and molecular weight at least 10⁶ (structural substance), 0.8-7; ammonium salt, 0.2-10; potassium bichromate, 0.06-2.7; sodium thiosulfate, 0.02-1.15; ground polyacrylamide gel, 0.1-50; and water, the balance. EFFECT: simplified preparation technology. 1 tbl

Description

 The invention relates to the production of compositions used as a phlegmatizer and a refrigerant in methods for eliminating solid rocket propellant (TRT) charges, TRT and BB production waste by combustion, mainly to methods for burning TRT channel charges directly in buildings or containers with waste on special stands equipped gas cleaning systems.

 Usage: the composition of the phlegmatizing refrigerant for controlled delayed burning of charges TRT and waste production.

 The inventive central channel charge TPT in the housing or a container with waste processing TPT and EXPLOSIVES filled with a composition based on liquid phlegmatizing refrigerant to a level that cuts off the main part of the combustion surface. The composition is cured at ordinary or elevated temperature, and the subsequent combustion of the charges of the TRT or the waste container is carried out in any convenient position. To enhance phlegmatization of the TPT surface, sodium carbonate or a suspension of calcium carbonate can be added to the composition of the composition, and water is used as a refrigerant. To reduce the rate of evaporation of the refrigerant, sedimentation of the neutralizing suspension and maintaining physical form, the composition contains a structure-forming agent, polyacrylamide, which is cured by additives.

A well-known environmentally friendly method of destroying pieces of TPT (US patent N 3778320, 1973), which consists in the interaction of fuel with hot molten salts, including reactive alkali metal carbonate or its hydroxide. At temperatures of interaction less than 200 ^o C use a mixture at 400-800 ^o C - a mixture of carbonate. To increase the reaction temperature, an additional 25% of alkali metal sulfates is added. The composition of the melt may include potassium chloride as a diluent. The elimination of TPT is carried out in pieces in special containers under the surface of the melt.

 The disadvantages of the composition for destroying TRT are the need to cut the charges of TRT into pieces weighing no more than 5 kg and complicated hardware design for the safe flow of the process, the inability to use the salt composition to destroy channel charges in the bodies of rocket engines.

 A known method of burning waste production of TRT and BB / US patent 3848548, 1974 /, where the initial stage is the mixing of solid waste with water to form a suspension, which is sent to a rotary kiln, which also serves conventional fuel and air. In a rotary kiln, water evaporates, and waste at a controlled speed burns out almost completely.

 The disadvantage of water as a phlegmatizing refrigerant in this method of burning TRT waste is the need to attract sophisticated equipment for organizing a controlled delayed combustion process and the limited size of the fragments of TRT charges allowed for destruction in a rotary kiln.

 The prototype of the invention is presented in a known method / patent of the Russian Federation 2021560, C1 class. F 02 K 9/08, 10/15/94 / of regulated TRT charge burning, which allows the use of small power stands equipped with gas purification plants for the safe burning of bulky charges, including defective ones, using water or aqueous salt solutions supplied as refrigerant free volume of the charge housing.

 The disadvantage of water and aqueous solutions of salts as a refrigerant is the need to ensure the vertical position of the TPT charge / special stands / and the continuous supply of refrigerant during combustion to compensate for its rapid evaporation and the need to use sophisticated equipment to treat the surface of charges with ultrasound in order to enhance the phlegmatizing ability of the refrigerant.

 The main objective of the invention is to develop a refrigerant composition in the basis of aqueous solutions of salts for controlled delayed burning of TPT charges at low power stands equipped with gas emission purification units, especially when horizontal engines with defective TPT charges are large, having increased phlegmatizing ability and not having the listed disadvantages .

This goal is achieved by introducing into the composition of a phlegmatizing refrigerant based on aqueous salt solutions as a polyacrylamide / PAA / builder with a hydrolysis degree of 10-25 mol%, a molecular weight of at least 1-10 ⁶ , hardeners and crushed PAA jelly, in the following ratio of components , wt.%:
Polyacrylamide - 0.8-7
Potassium Dichromate - 0.06-2.7
Sodium thiosulfate - 0.02-1.15
Ammonium salt - 0.2-10
Water - Else
Jelly PAA - 0.1-50.

Thus, in comparison with the known prototype / patent RF 2021560, C1 class. F 02 K 9/08, 10/15/94 / the composition of the phlegmatizing refrigerant was additionally introduced with a structurant - polyacrylamide, hardeners and crushed jelly PAA. The composition received new positive properties: it easily spreads over the surface of TPT charges made on various types of binders and easily flows into gaps, and after curing, the adhesion strength to TPT exceeds the cohesive strength of the composition, can be prepared using any simple mixing equipment, filled by any known method into the free volume of a rocket engine or a container with TRT and BB waste. Curing the composition of the phlegmatizing refrigerant is carried out at a temperature of 18-20 ^o C or at 60-80 ^o C with a corresponding reduction in curing time. The survivability and cure rate of the composition is controlled by changing the content of hardeners and ammonium salts with strong acids: sulfuric, hydrochloric or nitric. The composition curing rate of TPT, TPT and BB waste is influenced by the curing rate of the composition.

 The mechanical properties of the phlegmatizing refrigerant are a complex function of the concentration of PAA, electrolytes, hardeners, molecular weight and degree of hydrolysis of PAA.

The prepared compositions of the phlegmatizing refrigerant, in accordance with the table, are poured into the central channels of the TPT charges 36 and 150 mm in diameter fastened to the rocket engine body, the channel diameters are 10 and 44 mm, cured for 24 hours at 25 ^o C. Experiments on controlled delayed burning TRT charges were carried out in the vertical and horizontal position of the rocket engine housings with recording the pressure curve in the chamber - time. The tests were carried out on three charges in each experiment using TRT charges based on ammonium polybutadiene perchlorate and nitrocellulose nitroglycerin. In all cases, a positive result was obtained. The combustion modes of the charges in various positions of the engine correspond to the calculated ballistic characteristics of the TRT for the charges of end-face combustion. After the test, 40-70% of the initial mass of the phlegmatized refrigerant composition in the form of an irregular cone, which is a PAA jelly, was extracted from the engine chamber. The remainder of the jelly was crushed to a particle size of 2-5 mm and reused as a filler in the composition of the phlegmatizing refrigerant in an amount of up to 50% by weight.

 The proposed composition, in contrast to the prototype, allows the process of delayed burning of charges of solid rocket fuel and explosives, without requiring additional replenishment of the refrigerant solution in the combustion process, which greatly simplifies the hardware design of the implementation method. The jelly-like state of the refrigerant makes it possible to carry out the process of burning TRT and EXPLOSIVES at any convenient location of the engine housing or container (vertical, horizontal or at an angle to the horizontal). Crushing the remnants of gelatinous refrigerant after burning TRT or EXPLOSIVES and introducing it into the composition of a fresh portion of the composition can reduce the cost of the combustion process.

Claims (1)

Composition of phlegmatizing refrigerant for controlled delayed burning of solid rocket fuel charges, solid rocket fuel waste and explosives based on water and inorganic salts, characterized in that it contains a mixture of ammonium salt, potassium dichromate and sodium thiosulfate as an inorganic salt and additionally contains hydrolyzed polyacrylamide with a degree of hydrolysis of 10 - 25 mol.% with a molecular weight of not less than 1 - 10 ⁶ as a builder, crushed jelly of polyacrylamide and water at the following ratio of components, wt.%:
Hydrolyzed Polyacrylamide - 0.8 - 7
Potassium Dichromate - 0.06 - 2.7
Sodium thiosulfate - 0.02 - 1.15
Ammonium salt - 0.2 - 10
Polyacrylamide Jelly - 0.1 - 50
Water - Else

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