RU2418638C2 - Method and plant for high-dispersion distribution and exgaust of irritating or combat poison substance - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to method of plant used to distribute irritating or poison agents via pipeline system forming high-dispersion particles of ingredients for protection of people. In compliance with this invention, gas at room temperature and pressure exists in gaseous state. Gas evaporation temperature is low relative to ambient temperature. Gas in liquid state is bled from high-pressure tank and fed via pipeline system to several exhaust nozzles. Distributing element outlet cross section corresponds to sum of cross sections of the following pipelines. Irritating or poisonous substance in fluid state is added to gas before distribution at outlet nozzles. Has is released from outlet nozzles to instantaneously evaporate and expand and added irritating or poisonous substance is distributed in ambient air. Substances in liquefied solutions of gases or in liquefied gas emulations are transferred to outlet nozzles in liquid state and escape from said nozzles with kinetic energy of fluid.

EFFECT: larger radius of action even in open spaces and high-dispersion of irritating of poisonous substances.

13 cl, 1 dwg

Description

The invention relates to a method and installation by which solid and liquid warfare poisonous or irritating substances are distributed through a piping system with the formation of fine particles of ingredients in large internal and external spaces for the defense of people.

Known plants for spraying irritating and chemical warfare agents use working gases (propellants), for example propane / butane mixtures or R 134 A propellant known from aerosol cans, to displace irritating or poisonous warfare agents from a reserve tank.

In this process, the working gas evaporates and exits directly from the reserve tank or is sent to the outlet in the form of gas.

When discharged from a spare tank, only a limited spray area is achieved due to the breadth of spraying of each spare tank. In the further direction, the working gas takes energy from the reserve tank, valves and pipelines for its evaporation and heating, so that only short discharge intervals are possible to avoid glaciation. The effectiveness of such installations is limited by the relatively small released amounts.

The further direction of the working gas enriched with irritating or axial toxic substances is extremely limited due to the deposition of chemical warfare or irritating substances in the pipelines, as well as due to the relatively low gas passage through the piping system.

Another drawback in the further transportation of gases and their release for the distribution of additives is the small kinetic energy of the gas with respect to its surface, which leads to strong turbulence and thereby inhibition of ambient air, and the dispersion of the distribution of additives can only be determined approximately. For example, condensation drops form.

Due to both physical properties of additive deposition and gas turbulence (turbulence), the known distribution piping systems can be extremely limited in length, depending on gas and pressure, and the range of release is also very short.

For example, DE 4424772 A1 describes an automatic apparatus for spraying annoying gas for an alarm system in which a cylinder is opened mechanically, so that annoying gas is discharged directly into the surrounding air. Further direction of the gas is not provided.

DE 20201265 U1 represents the automatic atomization (fogging) of CS gas, in which the annoying gas leaves the reserve tank through a short nozzle and, with the help of the fan, the mixture of air with the annoying gas is blown into the environment. This installation is thus also unsuitable for distribution in large indoor and outdoor spaces.

Also in DE 29923948 U1, which is a device for the prevention of criminal offenses, annoying gas is delivered from the reserve cylinder directly into the surrounding air.

Further, DE 19909144 A1 describes spraying (fogging) in an automobile in order to protect it from trapping and impair visibility. An irritating gas may be added to enhance. To reduce visibility, fogging is carried out in the form of droplets or particles. As an annoying gas, for example, CS gas is mixed into the fog. Since the fog produced from the tank through the pipelines is directed to various outlet openings, the long-range and highly dispersed distribution of the mixed gaseous active substance is not obtained.

In the method described in DE 3517134 A1, objects are directly sprayed for defense purposes. Direct spraying is carried out using a finely bonded jet, which is aimed at the invader. For spraying, nozzles with an adjustable orientation are used, which should be directed to the face. Anesthetic, gas or sneezing powder or coloring agent is sprayed. Fine distribution with this solution is not possible.

EP 0 524 313 B1 discloses a spray distribution system for sprayed ingredients in large rooms. In this solution, the working means in gaseous form is also supplied under pressure into the pipelines for distribution, so that at the output nozzles it is also impossible to achieve any long ranges of action, which in this case is also not necessarily desirable.

Finally, EP 0 425 300 B1 describes a dosage and release system for spraying an active substance (insecticide). The working medium (preferably carbon dioxide) must enter the piping system in a liquid state and be mixed with the active substance by means of a mixing manifold.

Continuous transportation of the working gas through the system in liquid form does not work. Due to a strong pressure drop in the sampling cylinder, the pipelines would have to freeze immediately before a pressure equilibrium is established. Even the introduced throttling elements do not solve the problem, but additionally reduce the energy of release and expansion. In addition, the entire amount of active substance must be mixed before release into the environment.

The objective of the invention is to create a method and installation for the fine distribution and release of irritating or chemical warfare agents, in which or in which even in the open air long ranges and highly dispersed distribution of irritating or chemical warfare agents are achieved, so that using minimal amounts of active substances could be enriched in large quantities of air so that no pressure drops occurred even with relatively long pipelines and excluded l glaciation of pipelines even with long drain intervals.

The problem is solved using the method with the characteristics of paragraph 1 of the claims, as well as installation with the signs of paragraph 9 of the claims. Preferred improvements and embodiments are the subject of the dependent claims.

Using the invention, it is possible to spray solid and liquid chemical warfare agents and irritating substances through a piping system in large internal and external areas with a relatively long range, transporting irritating or chemical warfare agents in liquid form in liquefied working gas solutions or liquid gas emulsions up to outlets, and then releasing from the outlets or outlet nozzles with the kinetic energy of the liquid, so that by evaporation and the associated expansion of the ennogo superfine distribute gas or irritating chemical agent.

Fine distribution refers to a distribution in which the droplet size is lower than the value commonly referred to as fog.

To introduce irritating and chemical warfare agents into a liquid working gas, irritating or chemical warfare agents must first be dissolved in liquefied gas or in a solvent, which in turn is dissolved in liquefied gas. However, it is also possible, by itself, to introduce an insoluble irritant or chemical warfare agent in the form of an emulsion.

To mix (add) a liquid irritating or chemical warfare agent to a working gas in a liquid state of aggregation, a mixer is installed which, in a dosage form, adds an irritating or chemical warfare agent to the liquid working gas when the unit starts up.

Addition can be carried out using an injection pump or by using a liquid under other pressure, in which irritating or combat toxic substances are dissolved.

For this, the mixer, like the entire piping system, is sized according to the dimensions of its guide cross section in such a way that no pressure drop can occur and thereby also no piping glaciation.

In order to avoid any pressure drop and thus no premature evaporation, as well as no icing of the pipelines, the guiding cross sections are narrowed in the direction of the outlet nozzles compared to the initial cross section of the pipeline fed from the compressed gas reservoir. Those. all distribution elements and branches are designed so that the supply cross-section corresponds to at least the sum of the cross-sections of subsequent pipelines. Thus, it is guaranteed that there is a dynamic head that prevents the evaporation with undesired formation of gas bubbles, and also that the liquids do not swirl during their transportation to the outlet nozzles and do not turn into gas. Only after exiting the nozzles in liquid form as a result of evaporation does a fog similar to that obtained by spraying a liquid appear, a briefly visible evaporation cloud, through which the irritating gas is dispersed highly dispersed in the surrounding air.

Due to the fact that the ambient temperature is very high compared to the evaporation temperature of the liquid working gas, direct contact with a large surface between the liquid working gas and the heated ambient air is possible, associated with a strong energy exchange. There is instant evaporation and a finely dispersed distribution of irritating or chemical warfare agents at the outlet nozzles of the liquid gas jet over the entire length of the outgoing liquid gas jet with intense heating.

The resulting cloud of irritating or chemical warfare agents of a liquid gas jet due to its high kinetic energy (initial energy) of the liquid is ejected far into space.

Due to the cross sections tapering in the direction of the outlet nozzles, evaporation of the liquid working gas due to premature pressure drop is prevented.

Due to the increased kinetic energy of the working gas in the form of a liquid or in the form of a liquid mist, a larger delivery area is achieved than in the case of gas transportation, which has less kinetic energy. Due to the instantaneous evaporation of liquid gas in ambient air, an irritating or chemical warfare agent is distributed with a high energy exchange potential in the ambient air due to the influence of expansion forces.

Examples

Based on the drawing, a preferred embodiment of the invention is explained in more detail.

The presented block diagram shows the installation of the distribution of irritating or chemical warfare agents, in which, through a branched system of 3, 4, 5, 6, 7, 8, 9 pipelines, irritating or military chemical warfare agents are directed from the reserve tank 2 to a large number of spray nozzles 10-15 . In the exemplary embodiment, there are two blocks of output nozzles 10, 11, 12 and 13, 14, 15. The blocks can optionally be controlled by a 2/2-way valve 19, 10.

Through a 2/2-way valve 18, the liquid working gas from the tank 1 with liquid gas is pumped into the pipe 3 and fed to the mixer 16. At the inlet of the mixer 16 at the branch point 21, part of the working gas from the pipe 3 through the pipe 4 with a check valve 22 branches to create pressure in the tank 2 with irritating gas. The check valve 2 serves to ensure that the gas of the working medium required to create pressure in the tank 2 with irritating and combat poisonous substance cannot flow back.

The pressure of the working gas squeezes out the liquid of the annoying gas, regulated by a 2/2-way valve 17 and the pressure limiting valve 23, through the pipe 5 to the mixer 16. For effective mixing of the irritating or chemical warfare agent with the working gas at the inlet of the pipe 3 to the mixer 16 there is a reduction nozzle pressure, which lowers the pressure to a value that is branched at point 21.

The installation in this embodiment is made in such a way that either the right nozzle block 10, 11, 12, or the left nozzle block 13, 14, 15 can be turned on. For this, either valves 17, 18, 19, or valves 17, 18, 20 must simultaneously open.

Using this system and the corresponding parameters of pipelines 3-9, the working gas from the tank 1 with the working gas and the irritating or chemical warfare agent from the tank 2 with the irritating or chemical warfare agent is sent in liquid form to the outlet nozzles 10-15. Due to the incompressibility of the fluid, no pressure loss occurs.

LIST OF REFERENCE POSITIONS

1. Gas tank for solvent and working gas; compressed gas tank

2. Tank with irritating or chemical warfare agents

3. Pipeline for the supply of working gas

4. Branched working gas pipeline

5. Pipeline for annoying gas

6. The pipeline for the left group of valves

7. Piping for the right valve group

8. Piping for left outlet nozzles

9. Piping for right outlet nozzles

10. Outlet nozzle

11. Outlet nozzle

12. Outlet nozzle

13. Outlet nozzle

14. Outlet nozzle

15. Outlet nozzle

16. The mixer

17.2 / 2-way valve

18.2 / 2-way valve

19.2 / 2-way valve

20. 2/2-way valve

21. Branch point; mixing tank

22. Check valve

23. Pressure limiting valve

24. Mixing manifold

Claims (13)

1. The method of distribution and release of an irritating or chemical warfare agent, in which
solvent and working gas, which at room temperature and ambient pressure is in a gaseous state of aggregation and the evaporation temperature of which is low relative to the ambient temperature, in a liquid state of aggregation is taken from the reserve tank (1) high pressure and through the system (3- 9) pipelines are sent to several output nozzles (10-15);
all distribution elements of the piping system (3-9) are designed in such a way that the supply cross-section corresponds accordingly to at least the sum of the cross-sections of the subsequent pipelines, so that the liquid aggregate state of the dissolving and working gas is well preserved in the piping system (3-9) up to the outlet nozzles (10-15);
an irritating or chemical warfare agent in liquid form is added to the solvent and working gas before distribution at the outlet nozzles (10-15); and
the solvent and working gas are discharged from the outlet nozzles (10-15) in the form of a liquid stream and immediately after that they instantly evaporate and expand and thus distribute the added irritating or chemical warfare agent in the surrounding air. 2. The method according to claim 1, characterized in that the irritating or chemical warfare agent is dissolved in liquefied gas before being added to the solvent and working gas. 3. The method according to claim 1, characterized in that the irritating or chemical warfare agent is dissolved in a solvent before being added to the solvent and working gas. 4. The method according to claim 3, characterized in that the irritant or chemical warfare agent dissolved in the solvent is dissolved in the liquefied gas before being added to the dissolving and working gas. 5. The method according to claim 1, characterized in that the insoluble irritant or chemical warfare agent is added to the liquefied gas in the form of an emulsion before being added to the solvent and working gas. 6. The method according to one of claims 1 to 5, characterized in that to the dissolving and working gas which is in the liquid state of aggregation, an irritating or chemical warfare agent is dosed when the atomization process is initiated. 7. The method according to claim 6, characterized in that part of the solvent and the working gas is used as a working tool for dosed administration of an irritating or chemical warfare agent. 8. The method according to claim 6, characterized in that the annoying or chemical warfare agent is injected using a pump. 9. Installation for the distribution and release of irritating or chemical warfare agents with
a spare high-pressure tank (1) for presenting a solvent and a working gas, which at room temperature and ambient pressure is in a gaseous state and whose evaporation temperature is low relative to the ambient temperature in a liquid aggregate state;
a system (3-9) of pipelines for transporting solvent and working gas from a spare pressure tank (1) to several outlet nozzles (10-15), and all distribution elements of the piping system (3-9) are designed so that the feed cross section correspondingly corresponds to at least the sum of the cross-sections of the subsequent pipelines, so that the liquid aggregate state of the solvent and working gas in the piping system (3-9) is well preserved up to the outlet nozzles (10-15),
with a spare tank (2) to provide an irritating or chemical warfare agent in liquid form; and
with a mixer (16) to add irritating or chemical warfare agents from the reserve tank (2) to the solvent and working gas before its distribution to the outlet nozzles (10-15). 10. Installation according to claim 9, characterized in that the irritating or chemical warfare agent in the reserve tank (2) is dissolved in a liquefied gas, dissolved in a solvent or in a liquefied gas in the form of an emulsion. 11. Installation according to claims 9 or 10, characterized in that the amount of irritating or chemical warfare agent present in liquid form supplied from the reserve reservoir (2) to the mixer (16) can be regulated. 12. Installation according to claim 11, characterized in that a mixing manifold (24) with a 2/2-way valve (17) and a valve (23) is installed for introducing an irritating or chemical warfare agent from the reserve reservoir (2) into the solvent and working gas ) pressure limits. 13. Installation according to claim 11, characterized in that an injection pump is installed for introducing an irritating or chemical warfare agent from the reserve reservoir (2) into the solvent and working gas.

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