RU2643831C2 - Smell simulator of acetone peroxide and its derivatives - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: smell simulator of acetone peroxide and its derivatives contains an inert carrier mixed with an odourological substance. As an odourological substance, a mixture of acetone peroxide, hydroperite, acetone and perhydrol is used.

EFFECT: ensuring the possibility of a steady memorization by a dog of the initiator smell of explosive explosions - acetone peroxide and its derivatives.

7 cl, 8 ex

Description

The invention relates to the field of official dog breeding, and in particular to the field of training of service dogs, and can be used to train and smell dogs of dog training services used to search for explosives, including those used by terrorists and members of illegal military formations of explosives.

Acetone peroxide (acetone peroxide) is an initiating explosive. For military purposes, acetone peroxide is not used because of its high volatility and sensitivity, but since the 1980s it has been used for terrorist purposes as an initiating or main explosive. The use by terrorists is due to the simplicity of the synthesis, as well as the fact that there is no nitrogen in the molecule of this substance, which makes it impossible to identify an explosive device with standard devices that respond to nitrogen. Acetone trioxide has about the same explosive power as TNT. In addition, it is very sensitive to heat and shock and can ignite under the influence of an open flame and electric discharge, which makes the process of creating explosive devices dangerous (for this reason, acetone trioxide was called "Mother of Satan"). It is reported that this substance detonates even with a water content of up to 25%. Acetone peroxide is slightly less sensitive to shock than lead azide. By brisance, it surpasses lead azide and explosive mercury.

Known (RU, patent 2261858, publ. 2000) training props simulating explosives, the basis of which is made of sorption material - microcrystalline cellulose, or activated carbon, or silica gel, or polysorb, with a multimolecular layer of explosive taken in the amount of not more than 5.00% by weight of the sorption material.

A disadvantage of the known simulator should be recognized as the complexity of manufacturing.

Known (RU, patent 2388218, publ. 2010) is a simulator of the smell of explosives for training cynological activities when posing dogs for the smell of explosives, which is a cast body made from a mass obtained by adding up to 1% explosive with stirring in magnesia cement substances in the form of TNT, or RDX, or HMX, or pyroxylin powder, or varnish powder, or ballistic powder, or nitroglycerin, or ammonium nitrate, or TEN.

A disadvantage of the well-known imitator should be recognized as a significant loss of a source of smell - an explosive substance that has appeared inside a solid body and does not have contact with the surrounding air.

Also known (RU, patent 2364080, publ. 2009) is an odor simulator of explosives, which is a sheet sorption material on which a chromatographically pure sample of explosive is applied, and odorologically purified porous cellulose with porosity from 35 to 60% is used as sheet sorption material from the visible surface of the sheet sorption material and a pore size no greater than the area of 0.025 mm ^2, while applying an explosive in an amount of from 1 ng / cm ² to 1 mg / cm ² per apparent overhnost sorption sheet material is effected by precipitating the explosive onto said sorption material from their dilute solutions in readily volatile organic solvents or vapor in a vacuum chamber.

A disadvantage of the known simulator should be recognized as the complexity of manufacturing technology.

Known (RU patent 2467564, publ. 2012) is an odor simulator of improvised explosive devices based on nitrogen-containing compounds, containing an inert carrier, on the surface of which a odorological substance is applied, and a mixture containing aluminum powder or powder, as well as nitrogen fertilizers, is used as a odorological substance containing ammonium nitrate with a nitrogen content of at least 34 wt. %

A disadvantage of the known simulator should be recognized as a narrow scope (only improvised explosive devices based on nitrogen-containing compounds), as well as its unsuitability for posing dogs with the smell of industrially produced explosives.

Known (RU, patent 2315475, publ. 2008) is a composite explosive simulator for training wanted dogs based on an inert material containing explosive. A well-known simulator is a solid of any given shape, made by curing with water a homogeneous mixture of alabaster and explosive powders with an explosive content of 5-10 wt. %

A disadvantage of the well-known imitator should be recognized as a significant loss of a source of smell - an explosive substance that has appeared inside a solid body and does not have contact with the surrounding air.

During the search in patent and scientific and technical literature, no source of information was identified that could be used as the closest analogue.

The technical problem solved by the developed invention is to create a new simulator for training service dogs.

The technical result obtained by the implementation of the developed technical solution is to enable the dog to remember the smell of the explosive initiator used by illegal military units, acetone peroxide and its derivatives, in a stable manner.

To achieve the specified technical result, it is proposed to use the developed simulator of the smell of acetone peroxide and its derivatives. The developed simulator contains an inert carrier mixed with an odorological substance, which is used as a mixture of acetone peroxide, hydroperite, acetone and perhydrol.

From experience it follows that the quantitative composition of the simulator depends on the experience of the dog, its ability to distinguish odors. For this reason, the quantitative composition of the simulator may be different.

In a preferred embodiment, the odorological substance content is from 5 to 15% of the mass. from the mass of the simulator.

Typically, the content of acetone peroxide is from 5 to 80% of the mass. by weight of the odorological substance, the content of hydroperite is from 5 to 80% of the mass. by weight of the odorological substance, perhydrol is from 5 to 80% of the mass. by weight of the odorological substance, acetone is from 5 to 80% of the mass. by weight of odorological substance.

As an inert carrier, microcrystalline cellulose, silica gel, activated carbon, fractional glass alumina, purified sand and other carriers having a finely porous structure can be used.

In the manufacture of the simulator, acetone peroxide, hydroperite (TU 9336-001-24024092-001), perhydrol (GOST 177-88) and acetone are mixed in quantities selected depending on the task. The resulting mixture is mixed in any known manner with an inert carrier. The resulting odor simulator of acetone peroxide is stored in an airtight container.

Below are examples of the implementation of the developed simulator of the smell of acetone peroxide.

1. Mixed 3 g of acetone peroxide, 3 g of hydroperite and 3 g of perhydrol, 3 g of acetone. Mixing was carried out in a rotary mixer for 1 hour. 1 g of the mixture was mixed with 81 g of microcrystalline cellulose. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 5 g of acetone peroxide were placed in a similar bag and also sealed. A trained service dog in a pharmacy found both packages.

2. Mixed 1 g of acetone peroxide, 3 g of hydroperite, 5 g of perhydrol, 3 g of acetone. Mixing was carried out in a rotary mixer for 1 hour. 1 g of the mixture was mixed with 81 g of microcrystalline cellulose. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 5 g of acetone dipereoxide were placed in a similar bag and also sealed. A trained service dog in the apartment found both packages.

3. Mixed 0.3 g of acetone peroxide, 0.9 g of hydroperite, 2 g of acetone and 5 g of perhydrol. Mixing was carried out in a rotary mixer for 1 hour. 1 g of the mixture was mixed with 85 g of activated carbon. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 3 g of acetone triperoxide was placed in a similar bag and also sealed. A trained service dog in a fast train car found both packages.

4. Mixed 1 g of acetone peroxide, 7 g of hydroperite, 1 g of acetone and 3 g of perhydrol. Mixing was carried out in a rotary mixer for 1 hour. 1 g of the resulting mixture was mixed with 89 g of silica gel. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 2 g of acetone peroxide were placed in a similar bag and also sealed. A trained service dog in a perfume store found both packages.

5. Mixed 3 g of acetone peroxide, 0.3 g of hydroperite, 2 g of acetone and 6 g of perhydrol. Mixing was carried out in a rotary mixer for 1 hour. 1 g of the resulting mixture was mixed with 92 g of silica gel. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 3 g of acetone triperoxide was placed in a similar bag and also sealed. A trained service dog in a vegetable warehouse found both packages.

6. 3 g of acetone peroxide, 3 g of hydroperit, 2 g of acetone and 3 g of perhydrol peroxide of acetone, hydroperit, acetone and perhydrol. 1 g of the mixture was mixed with 30 g of microcrystalline cellulose. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 2 g of acetone dipereoxide were placed in a similar bag and also sealed. A trained service dog in a train station found only a packet of acetone peroxide.

7. Mixed 8 g of acetone peroxide and 3 g of perhydrol, 1 g of acetone with 88 g of silica gel. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 3 g of acetone peroxide were placed in a similar bag and also sealed. A trained service dog in a passenger train of a fast train found only a packet of acetone peroxide.

8. 6 g of hydroperite, 2 g of acetone were mixed and 12 g of perhydrol were mixed with 88 g of microcrystalline cellulose. Mixing was carried out in a rotary mixer for 2 hours. The resulting mixture was placed in a plastic bag and sealed. 2 g of acetone dipereoxide were placed in a similar bag and also sealed. A trained service dog in a train station found only a packet of acetone peroxide.

The developed simulator does not contain potent and narcotic substances prohibited for circulation, is safe to handle and does not require special storage conditions, and is disposed of with household waste.

The odor simulator of acetone peroxide was used by the Kennel Service of the FSB FS both for training and for setting dogs on the smell of acetone peroxide. Comparative tests conducted in the FSB FS using natural substances and an odor simulator of acetone peroxide and its analogues showed that trained dogs equally well search for both products.

The developed simulator of the smell of acetone peroxide can be used for training service dogs by the cynological services of the FCS of Russia, GUFSIN, FSKN, PU FSB, Ministry of Internal Affairs, ATC in ZhT, MES, MRS VS.

Claims (7)

1. The odor simulator of acetone peroxide and its derivatives, characterized in that it contains an inert carrier mixed with odorological substance, which is used as a mixture of acetone peroxide, hydroperite, acetone and perhydrol. 2. The simulator according to claim 1, characterized in that the content of the odorological substance is from 5 to 15% of the mass. from the mass of the simulator. 3. The simulator according to claim 1, characterized in that the content of acetone peroxide is from 5 to 80% of the mass. by weight of odorological substance. 4. The simulator according to claim 1, characterized in that the content of hydroperite is from 5 to 80% of the mass. by weight of odorological substance. 5. The simulator according to claim 1, characterized in that the content of perhydrol is from 5 to 80% of the mass. by weight of odorological substance. 6. The simulator according to claim 1, characterized in that the acetone content is from 5 to 80% of the mass. by weight of odorological substance. 7. The simulator according to claim 1, characterized in that microcrystalline cellulose, silica gel, activated carbon, alumina, fractionated glass, refined sand and other carriers having a finely porous structure are used as an inert carrier.