RU2716807C2 - Device for cleaning indoor air from harmful gases, aerosols, combustion products in fire and technogenic accidents - Google Patents

Abstract

FIELD: security means.

SUBSTANCE: invention relates to life support in emergency situations occurring in residential or industrial premises during fires or poisonings. Gist of the invention is that a device for cleaning a room in an emergency situation comprises a spraying device, the input of which is connected to a source of liquid, nozzle atomizers are installed at the sprayer outlet, the axes of which are directed inside the channel formed by the walls of a hollow body. Duct inlet is interconnected with volume of a cleaned room with possibility of ejection of gas from cleaned room into a channel with liquid jets, which are directed into the channel by atomizers of the spraying device. At the channel outlet there is a separator for separation of liquid-gas mixture into liquid and vapor-gas components with the possibility of returning the separated vapor-gas component back to the cleaned room.

EFFECT: increased intensity of gas purification by increasing the specific gas flow through the purification means and, thus, increased intensity of the heat removal from the gas, and also prevention of occurrence of conditions for maintenance of burning by recycling of the cleared gases back in an emergency premise.

6 cl, 1 dwg

Description

The invention relates to the field of life support in emergency situations arising in residential or industrial premises during fires or poisonings.

A known emergency ventilation system, carried out by ensuring the influx of fresh air and exhaust flue gases using a fan (RU 2198351 C2, publ. 02/10/2003).

The disadvantages of the known technical solutions are that the creation of an influx of fresh air inevitably contributes to the development of a fire, and the suction fan is exposed to high temperatures, which leads to failure in emergency situations. In addition, the dependence of the drive devices on energy supply systems (power supply networks) significantly reduces the reliability of the system due to the high probability of disconnecting a burning facility from the power supply network. Moreover, the use of autonomous sources of electricity leads to a significant increase in the cost of the emergency system and to a decrease in the reliability of its operation.

It should be noted that the use of an exhaust system only makes it impossible to open doors under vacuum, and the use of a natural differential pressure in aeration systems is impractical for a multi-storey building.

The closest technical solution to the claimed one is a flue gas cleaning system, the operation of which is that the rising flue gases are directed up the pipe with a developed surface made in the form of a cascade of cone rings and mixed with an aerosol formed by finely dispersed water created by injection water nozzles. Water adsorbing particles from flue gases flows down the developed surface into the water purification system, and the purified gases leave the pipe. In this case, due to contact with water, the purified gas is cooled (RU 2462292 C2, publ., January 27, 2012).

The disadvantages of the known technical solution are that the flue gas cleaning performance is too low, since the gas movement is initiated only by its natural convection, and also that the gas circulation is not closed, that is, unidirectional gas movement is created, creating conditions for the influx of fresh air into the combustion zone .

The technical result of the claimed invention is to increase the intensity of gas purification by increasing the specific gas flow rate through the cleaning means and, accordingly, increasing the intensity of heat removal from the gas, as well as preventing the occurrence of conditions for maintaining combustion by recycling the purified gases back to the emergency room.

This object is achieved in that the device for cleaning the premises in an emergency contains a spray device, the input of which is connected to a liquid source, and nozzles with nozzles are installed at the output of the spray device, the axes of which are directed into the channel formed by the walls of the hollow body, while the input section of the channel communicated with the volume of the cleaned room with the possibility of ejecting gas from the cleaned room into the channel with liquid jets directed to the channel by nozzles of the spraying devices a, and at the outlet of the channel there is a separator for separating the liquid-gas mixture into liquid and gas-vapor components with the possibility of returning the separated gas-vapor component back to the cleaned room.

The task is also achieved by the fact that the nozzle nozzles can be located at a distance from the input section of the channel.

The task is also achieved by the fact that it can additionally contain a device for cleaning the medium entering the channel.

The task is also achieved by the fact that the input of the spraying device can be connected to the water supply network of the ventilated room.

The task is also achieved by the fact that the input of the spray device can be connected to the fire line.

The task is also achieved by the fact that the input of the spraying device can be connected to a liquid accumulator.

The claimed invention is illustrated using the drawing.

The recirculation device for cleaning rooms in an emergency, contains a spray device 1, the input of which is connected to a source of liquid supplied through the line 2 to the spray device, for example, by means of a pump 3. At the distance from the nozzles of the spray device 1, there is an inlet section of the channel 4 formed the walls of the hollow body 5, while the axis of the nozzle nozzles are directed inside the channel 4. The input section of the channel 4 is also communicated with the volume of the cleaned room with the possibility of ejection of gas from the cleaning the room to be inserted into the channel 4 by the liquid jets directed to the channel by nozzles of the spraying device 1. At the outlet of the channel 4, a separator 6 is located for separating the liquid-gas mixture into liquid and gas-vapor components with the possibility of returning the separated gas-vapor component back to the cleaned room. The spent liquid is collected in a water collector 7, from which it can be drained directly into the room, or fed into a purification device (not shown in the drawing) for reuse in an air recirculation device.

The described device operates as follows. In the event of a fire in the room (or other technological accidents), forcibly (or this happens automatically) include the supply of liquid, for example, pressurized water, to the spray device 1, which through nozzles with nozzles directs water jets into the channel 4, the inlet section of which is located at a given distance from the nozzles. The dispersed stream of water ejects into the channel 4 a significant amount of gas from a smoky room. The large surface of water resulting from its dispersion by selecting nozzle parameters (nozzle diameter, direction of injection, water pressure, etc.) quickly cools the gas, helping to increase its flow rate through channel 4 and cooling the ventilated room. The developed surface of the dispersed water also allows you to quickly clean the ejected gas from the room due to adsorption, absorption and chemisorption due to the maximum possible contact area with the gas being cleaned. This technical solution allows for efficient gas purification in a short time and in the minimum dimensions of the device. The vertical orientation of the device helps to increase the cleaning efficiency, since it allows you to organize a falling water flow, which is especially important when there is a risk of a decrease in the water pressure in the system.

The gas-liquid mixture is separated in a separator into a liquid medium, discharged into the sewer or into the lower part of the room, and into purified gas, which is sent back to the ventilated room. Gas recirculation allows you to refuse to supply air to the room from the outside, which contributes to the development of a fire, as well as to extract gas into the atmosphere, which makes it difficult to open doors when people are evacuated from a smoky room. In addition, the need for power supply to the supply or exhaust fans reduces the reliability of such systems due to the danger of turning off the power supply in case of fire.

Thus, the described invention allows for highly efficient smoke removal from the premises using a small-sized device that does not interfere with the evacuation and does not depend on the operation of electrical networks. In fact, the power of the described device is independent, since when it is connected to the water supply system or to the fire main, its operation in an emergency is guaranteed. Along with smoke removal, an effective cooling of the gas environment of the room is carried out. That is, at least two main problems that lead to the maximum number of victims during fires are effectively solved: a burn of the respiratory tract and poisoning by combustion products. The simplicity of manufacture and operation allows you to equip each room with this device.

Claims (6)

1. A device for cleaning indoor air from harmful gases, aerosols, combustion products during fires and industrial accidents, containing a spray device, the input of which is connected to a liquid source, and nozzles with nozzles are installed at the output of the spray device, the axes of which are directed into the channel formed by the walls the hollow body, while the input section of the channel is communicated with the volume of the ventilated room with the possibility of ejection of gas from the ventilated room into the channel with liquid jets directed to the can nozzles of the spraying device, and at the outlet of the channel there is a separator for separating the liquid-gas mixture into liquid and gas-vapor components with the possibility of returning the separated gas-vapor component back to the ventilated room. 2. The device according to p. 1, characterized in that the nozzle nozzles are located at a distance from the input section of the channel. 3. The device according to claim 1, characterized in that it further comprises a device for cleaning the medium entering the channel. 4. The device according to p. 1, characterized in that the input of the spray device is connected to the water supply network of the ventilated room. 5. The device according to p. 1, characterized in that the input of the spray device is connected to the fire line. 6. The device according to claim 1, characterized in that the input of the spray device is connected to a liquid accumulator.

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