Requirements for storage locations. Recommendations for the installation of special signs and signs on the territory of an artillery ammunition depot Rules for storing ammunition in a warehouse

08.03.2020

Varnas 20-02-2011 19:08

Here is a photo of some base in Afghanistan. There is a wall around the perimeter. about somehow buried warehouses is invisible. Is everything stored in aluminum hangars?

хх451735 20-02-2011 21:25

What level of storage? Army? Brigade? temporary or permanent? Arsenals or bases, or just a RAV warehouse?

Varnas 20-02-2011 23:35

divisions or less. Permanent and temporary, although of course more temporary.

quote: Arsenals or bases, or just a RAV warehouse?

all

хх451735 21-02-2011 12:05

Operation manual RAV. Part 1. Operation of the RAV in the troops. it's all about the storage of ammunition. Read, don't be bored.

Varnas 21-02-2011 12:22

хх451735 21-02-2011 12:51

rocket and artillery weapons or are you only interested in technology?

Varnas 21-02-2011 12:58

Goals too. Especially the second world.

4V4 21-02-2011 01:38

If temporarily, on the ground, in a bunch. Or will you find an opportunity to dig in?

Will they blow it up, lie, and if so, then to hell with it.

Varnas 21-02-2011 02:13

Temporarily - UTB very indefinitely. One option is a pile on the ground, another underground warehouse or a building lined with sandbags ... And in the middle? Layout plans, etc.

Sanych 21-02-2011 10:00

quote: Originally posted by Varnas:
Let's say we have a base. Artillery/mortars, armored vehicles, karasma type, etc. Field airfield during World War II. Does anyone have photos, diagrams or building layout requirements?
Here is a photo of some base in Afghanistan. There is a wall around the perimeter. about somehow buried warehouses is invisible. Is everything stored in aluminum hangars?

Not in hangars. In containers. Containers may or may not be enclosed with a backfill barrier, depending on the circumstances.
At the bases in the MPD - buried defenses, you can look at goggle earth on the example of some base / airbase.
At some bases, according to the conditions of the terrain, mining tunnels, etc., such as, for example, the nuclear weapons base of the nuclear submarine in San Diego, California, or the largest arsenal of the US Navy in Hawaii.

kotowsk 21-02-2011 10:53

quote: Nobody is digging in the ground.

however, it is recommended to do the bunding. in which case the blast wave goes up.
(Recommended doesn't mean they will definitely do it.)

хх451735 21-02-2011 11:42

quote: Originally posted by Sanych:

Nobody is digging in the ground.

Loud statement. what are your proofs?

Sanych 21-02-2011 11:44

Look at the military temporary bases in Iraq and A-stan on Google - you will see for yourself, in the best, most extreme case - embankment.

хх451735 21-02-2011 11:50

uh ... my friend, you are not a patriot. I tell you about the Armed Forces of the Russian Federation, and you tell me about Iraq ...

kotowsk 21-02-2011 11:52

quote: Nobody is digging in the ground.
Loud statement. what are your proofs?

when an underground warehouse explodes, the damage will be greater than that of an open one.

хх451735 21-02-2011 12:01

can you elaborate on the damage?

хх451735 21-02-2011 12:32

Underground structures are quite expensive structures, and provide somewhat less capacity compared to open areas. And the maintenance of underground structures is also a troublesome business - groundwater, then ventilation ... and you are damage, damage ...

хх451735 21-02-2011 12:55

And I’ll tell you about the damage: if a warehouse with a power supply and some kind of RS stored in an open area flies to your dacha, this will be Damage. and scattered BPs throughout the district (only a small part of the ammunition explodes, the rest scatters), which can already be safely classified as a GP of the 2nd hazard class. and if the underground storage chirps, then there is a high probability that there will be fewer GPs in the district and nothing will fly to your dacha and neighboring storages will remain suitable.

kotowsk 21-02-2011 13:01

quote: and if the underground storage stutters, then there is a high probability that

1) in addition to the GP, the wreckage of the same storage will arrive.
2) the shaking of the earth's crust will be more and more buildings will collapse precisely because of this.
3) although the number of explosive objects may be less. since during an explosion in a confined space, most of them will detonate. so that the primary detonation will be greater, and the number of flying ERs will be less. I don't know which is "better".

хх451735 21-02-2011 14:48

this is what a real ammunition storage base looks like.

хх451735 21-02-2011 15:28

And this is what the collapsed structures look like. the arrows are the entrance to them. the red outline is the approximate boundaries of the structure. From the air, they are almost invisible.

How to effectively extinguish fires in army arsenals

Not far from the city of Chapaevsk in the Samara region on the evening of June 18, several powerful explosions thundered at a training ground owned by the Ministry of Industry and Trade of the Russian Federation, then a fire broke out. The radius of the projectiles, according to experts, amounted to 500 m. Residents of nearby settlements - about 6 thousand people - were urgently evacuated. As a result of the incident, one person died, more than 200 sought medical help.

One of the most difficult, still effectively unsolved tasks is to quickly, timely extinguish fires in ammunition depots, which can prevent explosions of ammunition starting from 10 minutes from the start of a fire.

In fact, firefighters only observe the complete burnout of ammunition stacks and, at the same time, they only try to localize the fire, i.e. prevent it from spreading to neighboring stacks. But when ammunition begins to explode in a burning pile, even this passive “extinguishing” immediately stops, and firefighters quickly evacuate several kilometers from the explosions. This is still ideal when at least attempts are made to put out the fire. As a rule, firefighters do not know when a fire started, they only fix it from a certain stage of its development. Experimental polygon, field studies conducted in the 80s in the USSR made it possible to establish that explosions of ammunition begin 8-12 minutes after the start of combustion. Since firefighters do not know exactly when the ammunition in a burning pile will begin to explode, in most cases they do not risk approaching it and have every reason to do so, since they do not have the equipment capable of ensuring safe and effective extinguishing of a burning ammunition pile.

As the analysis of the development of the fire of ammunition stacks shows, modern measures to prevent them are ineffective. Deep embankments around the storage facilities, lightning rod systems, round-the-clock video surveillance do not save from the spread of forest and steppe fire on the territory of the base, especially in strong winds, and also cannot save from a qualified terrorist attack. At the same time, the unbundling of ammunition does not help - storing warheads separately from fuses - since explosive charges in warheads or gunpowder in cartridge cases explode from heating, and not from the operation of fuses or igniter primers.

Similar to these fires are fires at woodworking facilities, the fight against which is also a very intractable task and, as a rule, firefighters do not extinguish burning stacks of timber, lumber, but prevent neighboring stacks from igniting. As practice shows, modern mechanical, pneumatic, hydraulic installations for the supply of fire extinguishing compositions do not provide prompt extinguishing of fires even at the initial stage of their development, due to the long time required to transport and deploy fire equipment, as well as to achieve an effective extinguishing mode from the moment the equipment starts operating. and coordinating the joint work of several fire engines. Existing fire extinguishing equipment cannot effectively deal with advanced fires either, due to the small values of the parameters of fire extinguishing jets: power, speed, range, front area, penetrating ability. It is practically impossible to localize and extinguish the fire of even a single wooden stack using traditional fire extinguishing methods and technical means. The short range of extinguishing leads to the need for long-term work in the zone of the damaging effects of the explosion and fire flame.

The most promising for solving this problem are multi-barrel installations for pulsed supply of fire extinguishing compositions based on the chassis of T-54, T-55, T-62 tanks, two-axle trailers, carriages, jeeps and trucks. These installations provide a fast, powerful, multiple fire extinguishing effect, flexibly adjustable in terms of its parameters: front area, intensity of the fire extinguishing agent supply.

There is an important reason why, in addition to fire tanks, wheeled impulse fire engines should be used in arsenals, which start up and arrive at the fire site much faster than tanks. A caterpillar armored fire truck may not have time to prevent an explosion of ammunition in a pile, but it can work effectively in the zone of damaging effects of explosions.

The first skid-mounted multi-barrel fire system was tested in 1982, and since then, more and more intensive and extensive work has continued to improve multi-barrel systems. The optimal caliber and length of the barrel have been established, the layout of the multi-barrel system has been developed, elements of separate-sleeve charging have been created: a knock-out charge and a sealed cylindrical container-sleeve that provides quick loading into the barrel and long-term guaranteed up to 10–15 years storage of any fire-extinguishing composition of powder, gel, liquid , with different characteristics: dispersion, specific gravity, density, viscosity, wettability, chemical activity. This makes it possible to concentrate sufficient stocks of fire-extinguishing ammunition in many places, as well as to mount loaded multi-barreled modules in dangerous areas, easily and simply ensure their long-term standby mode. Always and immediately provide a combined fire extinguishing effect with the help of several successive volleys of various spray fire extinguishing compositions at adjustable intervals.

Impulse multibarrel installations of other designs, for example, pneumatic or 120 mm powder, do not provide a quick and effective fire extinguishing process.

In 1988, tests were carried out in Balakleya on the basis of the ammunition arsenal. At the first stage, May-June, 5 model stacks of containers - boxes with ammunition measuring 12x6x3.5 m (12 m along the front, 6 m in depth and 3.5 m in height) were extinguished using traditional fire equipment based on the GPM- 54, wheeled fire engines (APC-40), AGVT turbojet. This traditional technique failed to put out 4 burning stacks after 8 minutes. free burning. The stacks were completely burned out in 20-25 minutes, several shells with powder charges contained in them exploded 10-12 minutes from the start of the stack fire and were extinguished only when the boxes collapsed and turned into a pile of burning debris.

At the second stage of testing in August 1988, using the example of extinguishing three stacks with dimensions of 15x6.5x3.5 m, two large-caliber (200 mm barrel caliber) impulse installations were tested, mounted on the chassis of two-axle anti-aircraft gun carriages: 25-barrel recoil and 30-barrel recoilless pulse spraying system. The stack free burning time was 8 min. A 25-barrel recoil impulse installation made 3 volleys of 8 and 9 barrels in 15 seconds from a distance of 25 m along the stack. Flames and smoke were knocked down completely from the outer surface of the stack. As a result, effective extinguishing occurred - the flame was knocked down and a dense fire-extinguishing medium was created that prevents re-ignition.

Then the same pile was re-ignited with a free burning time of 12 minutes. Simultaneous volleys from impulse installations located at right angles from the front of the 25-barrel recoil and from the end of the stack of 30-barrel installations made it possible to bring down the fire and completely extinguish the stack with the ejection of a mass of mist water - a gas-water squall. When extinguishing with a powder whirlwind from 2 sides, it took the work of a firefighter with a manual barrel for 2.5 minutes.

At the second stage of testing, the second pile was ignited and from a distance of 25 m after 10 minutes of free burning from a distance of 35 m (from a 25-barrel installation), this pile was extinguished in 1 minute (54 seconds) with three volleys of 8 barrels that created successive flurries of atomized water. Then the pile with a well-soaked surface was hardly re-ignited, using more than 60 liters of gasoline for this. This in itself is a good proof of the effectiveness of impulse extinguishing and the practical impossibility of re-ignition after this extinguishing. After 10 min. free burning was extinguished from a distance of 25 m by three consecutive volleys of 10 barrels from a 30-barrel installation.

An analysis of two types of extinguishing a burning pile with powder and finely dispersed water showed the indisputable advantages of the latter, as well as a number of the following advantages of a finely dispersed gas-water squall:

Extinguishing the 3rd pile with a powerful compact jet of water took up to 40 minutes and required at least 10 fire engines AC-40 with water. This meant the actual failure of the extinguishing - the impossibility of preventing the transition of the burning of the stack into an explosion of ammunition in the unextinguished area. By the end of the firefight, the stack was completely destroyed by a combination of fire and water jet impact.

The pile, which was extinguished with the help of AGWT, burned out the fastest of all - approximately 4–5 minutes after the start of extinguishing, due to the fact that the extinguishing effect was of a local nature. A pile of real ammunition would no doubt have exploded during the firefighting and destroyed the fire trucks.

An analysis of the experimental results left no doubt that the most effective extinguishing method is pulsed finely dispersed water spraying immediately along the entire front of the combustion area (from the direction of the salvo) with a powerful penetrating effect that provides total destruction, cooling and dilution of the condensed combustion zone. The development of multi-barrel installations on the chassis of carriages, trucks, tanks and unitary sealed cartridges with various fire extinguishing compositions made it possible to implement a combined method of pulsed extinguishing.

The trunks of a multibarrel installation can be charged with various fire extinguishing compositions: liquids, solutions, gels, powders and bulk materials. Thanks to this, for the first time, one fire engine can carry out a fully autonomous, combined, effective extinguishing of various types of fires. It is also possible to charge barrels and effectively spray various natural materials from them: soil, mud, sand, water of any turbidity, dust, snow, ice, etc.

Thus, the operation of this installation, to a relatively small extent, depends on the delivery of containers with fire extinguishing composition. When all barrels are fully fired, for example, 5 volleys of 10 barrels, it is possible to extinguish a stack of ammunition in no more than 1 minute after 10 minutes of free burning of the stack. Such work in 10–15 minutes can be performed by at least 4 traditional fire tanks GPM-54. This number of fire tanks is not available in any Russian arsenal and it is difficult to put into practice their coordinated work on a burning pile in an open area.

9-16 barrel mounts can cost between 10-15 thousand dollars, while the Impulse 3M machine costs up to 80 thousand dollars, and the GPM-54 machine costs up to 120 thousand dollars. Trailed multi-barrel installations can be transported to a burning pile by various firefighters and other vehicles, which can quickly deliver the installation to the extinguishing position, and then retire to a safe place.

All types of multi-barrel impulse fire installations have already been produced and can be produced at Russian factories without imported components. It is quite realistic to equip the largest bases and arsenals of ammunition with these installations in 1-2 years, and in 3-5 years all other ammunition depots in Russia. This will greatly reduce the likelihood of catastrophic fires and explosions, which were in Chapaevsk, Lozovaya, Novo-Bogdanovka and others. This task is quite real and very important for the combat capability of the Russian army and ensuring the country's security.

54. The storage of weapons and cartridges is permitted to legal entities and individuals who have received permission from the Federal Service of the National Guard Troops of the Russian Federation or its territorial bodies to store, or store and use, or store and carry weapons.

55. After receiving permits from the Federal Service of the National Guard Troops of the Russian Federation or its territorial bodies for the storage or storage and use of weapons in the manner established by the Federal Service for the National Guard Troops of the Russian Federation, legal entities are required to store weapons and cartridges in conditions that ensure their safety , security of storage and excluding access to them by unauthorized persons.