RU2750195C1 - Method for fire extinguishing by means of a cyclone fire extinguisher using vortex effect of a reducer - Google Patents

Abstract

FIELD: firefighting.SUBSTANCE: method for extinguishing fire by a cyclone fire extinguisher using the vortex effect of a reducer made in form of an attachment on the barrel of a fire hose from two cyclone-reducers located coaxially, or in form of a mobile unit, the angle of location of the axis of the barrel of the fire hose with the axis of the cyclone fire extinguisher must be adjustable. The method consists in the fact that in the process of tangential movement of water from the fire hose to the cyclone fire extinguisher in cyclone-reducers of the cyclone fire extinguisher, a main and an opposite vortices are formed, with axial, peripheral layers. When the cyclone fire extinguisher is brought to the fire source in the rarefied space of the second, following the movement of the water stream, cyclone-reducer of the cyclone fire extinguisher, the flame is drawn along with unburned ash particles of non-combustible materials, non-combustible gases, heating to a boil the water inflown from the first, following the movement of the water stream, cyclone-reducer to the second cyclone-reducer. Steam and unburned particles are mixed with the water of the counter vortex of the second cyclone-reducer, forming an aerosol mixture moving along the separation structure into the flow of the counter vortex from the first cyclone-reducer, mixing with the water of the counter vortex flow, the resulting mixture is then sent to cover the fire source in order to extinguish fire.EFFECT: technical result is improved technology of fire extinguishing with a cyclone fire extinguisher using vortex effect.1 cl, 2 dwg

Description

Since the fire was made, it has become both man's best friend and his worst enemy. It is impossible to measure how much trouble, how much harm, the flame has brought.

Many manual and mechanized devices are known for extinguishing fire, for forming, directing a stream of water and various fire extinguishing substances to the place of fire. There is regulatory documentation describing the requirements for devices, their operating conditions, testing, storage, rules of use. For example, “NPB 177-99 Fire fighting equipment. Hand fire trunks. General technical requirements. Test procedure ".

Fire nozzles are one of the main types of fire fighting equipment. The fire barrel is a special device that is designed to form and direct a stream of water and extinguishing substances to the fire site. The fire barrel consists of a body, a connecting fire head, a nozzle, which is responsible for the type of jet.

For example, the manual universal fire nozzle "AKRON Assault 4820" is designed: for the formation and direction of continuous or sprayed jets of water; for the formation and direction of a jet of air-mechanical foam; to protect the owner from the thermal effects of a protective water curtain, with an adjustable degree of density of the screening torch; to shut off the supply of fire extinguishing agents. The AKRON Assault 4820 fire barrel is calibrated for pressure: 3 bar (3.1 kgf / cm ² ; 45 psi); 5 bar (5.1 kgf / cm ² , 75 psi); 7 bar (7.14 kgf / cm ² , 100 psi). Working properties of the fire nozzle: available regulation of the shape of the jet, from solid to spray; fixed protective teeth; powerful design of the bumper (head for changing the geometry of the jet), allowing you to get a high quality spray jet; convenient removal of debris stuck in the barrel; quick and easy replacement valve gaskets.

Known combined trunks, which include in their structure: body; sleeve head in the form of a sleeve; lever; barrel head; removable nozzle - foam generator.

Fire nozzles have become widespread in our time when extinguishing fires of various levels of complexity. The most commonly used ones include air-foam barrels with an ejection device - SVPE. The barrels are designed to obtain foam from an aqueous solution of a foaming agent, to form and direct a jet to extinguish a fire.

UHPE device. The SVPE barrel consists of a body, on one side of which a pinned connecting head is screwed to connect the barrel to a hose pressure line of the corresponding diameter, and on the other, a pipe made of aluminum alloy is attached to screws and is designed to form air-mechanical foam and direct it to the hearth fire. There are three chambers in the barrel body: receiving, vacuum and output. A nipple with a diameter of 16 mm is located on the vacuum chamber for connecting a hose with a length of 1.5 m, through which the foaming agent is sucked. At a working water pressure of 0.6 MPa, a vacuum is created in the barrel body chamber of at least 600 mm Hg. (0.08 MPa).

The principle of operation of the barrel of the SVP is as follows: the flow of an aqueous solution of the foaming agent along the hose line is supplied to the body. Coming out of the housing opening, the jet expands and creates a vacuum (vacuum), under the action of which spraying occurs and at the same time air is sucked into the holes located evenly over the pipe surface. In the pipe cavity, further fragmentation of sprayed drops of an aqueous solution of a foaming agent occurs as a result of their collisions with each other and impacts on the surface of the pipe walls, and they also mix with air sucked through the holes and the formation of air-mechanical foam bubbles. A stream of air-mechanical foam at the exit from the barrel must be directed to the fire.

Despite the great popularity of these devices, they have common disadvantages: the relative complexity of the design, for example, three chambers, the difficulty in setting up and, as a consequence, limitations during operation, which is especially important in extreme situations when extinguishing fires. For example, during the operation of the UHPE barrel, it is necessary to hold it securely in your hands and ensure that the working pressure at the barrel is within 0.6 + 0.05 MPa (6 + 0.5 kgf / cm ² ).

The proposed cyclone fire extinguisher is an independent vortex fire extinguishing device using the vortex confuser effect.

The main difference between the proposed device and existing fire extinguishing devices is that: the water pressure is used not only as a stream of water, but as the basis for the formation of a non-combustible mixture of particles of non-combustible materials, gases, substances involved in combustion.

Disclosure of the invention.

As an illustration of the principles of operation of the proposed cyclone fire extinguisher, consider FIG. 1. "Schematic diagram of the operation of a cyclone fire extinguisher."

When water enters from the fire hydrant into the fire hose "1", which is equipped with a cyclone fire extinguisher, the water jet, flowing tangentially, into the first cyclone-confuser "4" of the cyclone fire extinguisher, according to the movement of water, is twisted. A local vortex is formed, in which the peripheral and axial layer is formed - the first stage of the cyclone fire extinguisher .. The peripheral layers, moving to the top of the cyclone-confuser cone "4", under the influence of the inclined wall of the cone and the pressure drop, form, from the most dense particles of water, the oncoming vortex, which, pressed by centrifugal forces against the expanding wall of the cyclone-confuser, moves in the opposite direction, towards the larger base of the cone. The axial layers, and less dense particles of water, under the influence of pressure drop and centrifugal forces move to the axial hole in the first cone of the cyclone-confuser, then move to the second cyclone-confuser “5”, to the second stage of the cyclone fire extinguisher. The vortex movement continues in the second cyclone -confusor "5", new peripheral and axial layers are formed in it. Like the first confuser cyclone "4", in the second confuser cyclone "5", a counter vortex is formed from the densest particles of the peripheral layer. Particles of the oncoming vortex under the influence of centrifugal forces are pressed against the expanding wall of the cyclone-confuser cone and move towards the larger one, its base, in the process of movement, fall into the hole in the side wall. Axial layers, and less dense particles of the peripheral layer, under the action of centrifugal forces, are grouped near the axis of the vortex, in the second cyclone-confuser "5". A space of reduced pressure, a vacuum, is also formed here. Under the influence of a pressure drop, layers of the external environment move into this space, including flames, unburned particles of non-combustible substances and materials, carbon dioxide, ash.

When bringing the barrel of a fire hose with a cyclone fire extinguisher to the flame, conditions are created for the involvement of the fire flame through sieves "6" into the second cyclone-confuser of the cyclone fire extinguisher. The flame, involved in the cyclone fire extinguisher, heats the water of the swirling stream that entered the second cyclone-confuser of the cyclone fire extinguisher from the first cyclone-confuser. While the flame is burning, water is heated to a boil, turns into steam, water particles stick to air particles. An aerosol mixture is formed. It is known that the flame is extinguished by a sprayed jet faster, since the surface area of the flame contact with water particles increases.

Together with the flame, other combustion products are involved in the cyclone fire extinguisher, including already burnt particles or particles of non-combustible materials and substances; fly ash; carbon dioxide. It is possible to use powdered non-combustible foaming agents. Involved by rarefaction, in the second cyclone-confuser of the cyclone fire extinguisher, the particles of the external environment, the formed steam, are mixed with particles of the axial layers and with particles of a lower density of the water flow coming from the first cyclone-confuser. Under the influence of the pressure drop and centrifugal force, they are involved in the vortex motion of the particles of the counter flow formed in the second cyclone-confuser, and, together with them, move towards the larger base of the second cyclone-confuser, then, with a total mass, enter the hole for the overpass in the wall the second cyclone-confuser, i.e., the second stage. The increase in the parameters of this movement is facilitated by the ejection effect when the flow moves from the second-stage cyclone-confuser to the overpass of the flow of the counter-vortex of the first confuser cyclone, i.e. first stage cyclone fire extinguisher. Both streams, the first and second stages of the cyclone fire extinguisher, moving synchronously, are mixed in the barrel of the fire hose and, already like a mechanical mixture, are sent to extinguish the fire. Mechanically mixing with water, they form a non-combustible mixture, when sprinkled over a flame, the flame is covered with fog, which extinguishes the fire, since there is less oxygen, the moisture content of the materials is higher, there is more steam, but there is less combustible materials, the temperature of the materials involved in combustion is lower.

The proposed cyclone fire extinguisher uses a cyclone-confuser using the vortex confuser effect. The essence of the vortex confuser effect lies in the property of the vortex motion to form a vortex counterflow, initially formed by the vortex flow. A cyclone-confuser is an apparatus of vortex equipment, described in patent No. 2 688 459. "A vortex method of complex cleaning of surface and bottom layers of water bodies from mechanical contamination by impurities using vortex separators: (confuser separators, confuser cyclones)". Author (s): Kuznetsov Viktor Ivanovich (RU), Sharikov Oleg Alekseevich (RU) Published: 21.05.2019 Byull. No. 15

In the present invention, the physical process of the vortex effect of the confuser and the technological scheme of the operation of the cyclone-confuser, FIG. 2. "Technological scheme of the cyclone-confuser operation", consider the example of the first cyclone-confuser in terms of water movement from the fire hose, that is, the first stage of the cyclone fire extinguisher.

Entering tangentially into the cyclone-confuser "4", the water swirls, forming axial "7" and peripheral "8" layers in the resulting vortex flow. Denser particles of water, under the influence of pressure drop and centrifugal force, move closer to the wall of the cyclone-confuser - peripheral layers, less dense to its axis - axial layers. As the swirling flow moves along the axis of the cyclone-confuser "9" to the smaller base, in the peripheral layers, under the influence of the tapering shape of the cyclone-confuser, additional compaction of the peripheral layer of the flow occurs. The particles of the peripheral layer, continuing their rotational motion, under the influence of the inclined confuser wall, friction forces, are decelerated in translational motion along the axis, up to zero translational velocity, which leads to an increase in pressure in the peripheral layer. On the other hand, a closed space is formed in front of the hindered particles, the region "F", bounded in front by the inclined confuser wall, from the back by supporting the following flow turns, from above by less dense moving axial flow layers. Due to the ejection of axial flows, in the closed space "F", a reduced pressure is formed between the flow turns. An increase in pressure in the ring of "inhibited" particles of the peripheral layer with a simultaneous decrease in pressure in the closed space of the cyclone-confuser, zone "F", leads to a "pressure drop", which squeezes out the particles from the loops into the space where the pressure is lower. This space is the inter-turn space. The buoyant force of the differential pressure is directed against the original movement of the flow loops. At the same time, centrifugal force presses the rotating particles squeezed out of the coils against the expanding wall of the cyclone-confuser. Particles of water continue to move, but, already, in the opposite direction to the original flow. Thus, a counter vortex flow of water is formed in the first cyclone-confuser of the cyclone fire extinguisher. Moving at the side wall of the confuser, towards the larger base, the counter flow enters the hole in the side wall, then moves along the overpass into the barrel of the fire hose. In the barrel of the fire hose, water particles of the counter-vortex flow of the first cyclone-confuser are mixed with particles of the counter-flow of the second cyclone-confuser together with steam particles, particles of unburned materials and substances, non-combustible gases that have entered the barrel, including as a result of ejection of the mixture from the second cyclone - cyclone-confuser.

Implementation of the method. The implementation of the method consists in the manufacture of the proposed technological scheme for the functioning of a cyclone fire extinguisher with subsequent use in the working process. Pressure, power equipment is typical, overpasses, control and measuring equipment is typical. New is the cyclone fire extinguisher itself in the form of a nozzle. But a cyclone fire extinguisher as an equipment is structurally simple, it has no moving parts, parts as such, technologically advanced to manufacture. Manufacturing is possible in every mechanical workshop. When implementing the invention, it is necessary to take into account the angle of the axis of the fire hose barrel with the axis of the cyclone fire extinguisher, it must be adjustable, since the spread of the fire flame and the spraying of liquid from the barrel above the flame must not oppose each other.

A cyclone fire extinguisher can be made both as a nozzle on the barrel of a fire hose for an individual operator, and as a mobile unit.

The proposed method and device will find application in extinguishing all types of fires known today: forest, steppe, in the city, local courtyards.

There is no information in information sources about the world practice of using analogs of the proposed method or devices.

Bibliographic list.

1. Patent No. 2688459. "Vortex method of complex purification of surface and bottom layers of water bodies from mechanical pollution by impurities using vortex separators: (confuser separators, confuser cyclones)." Author (s): Kuznetsov Viktor Ivanovich (RU), Sharikov Oleg Alekseevich (RU) Published: 21.05.2019 Byull. No. 15

Brief description of the drawings.

Fig 1. Schematic diagram of the operation of a cyclone fire extinguisher

1. Fire hose with water.

2. Barrel extension to the cyclone fire extinguisher.

3. Nozzles to the barrel of the fire hose.

4. The first cyclone-confuser of the cyclone fire extinguisher.

5. The second cyclone-confuser of the cyclone fire extinguisher.

6. Screens.

Fig 2. Flow diagram of the cyclone-confuser

4. The first cyclone-confuser of the cyclone fire extinguisher

7 Axial layers

8 Peripheral layers.

9. Vortex flow into the second cyclone-confuser for flow.

10. Counter vortex of the first confuser cyclone.

Claims (1)

A method of extinguishing a fire using a cyclone fire extinguisher, using the vortex effect of a confuser, made in the form of a nozzle on the barrel of a fire hose from two cyclones-confuser, located coaxially, or in the form of a mobile unit; the angle of the axis of the fire hose barrel with the axis of the cyclone fire extinguisher must be adjustable; consisting in the fact that in the process of tangential movement of water from the fire hose to the cyclone fire extinguisher in the cyclones-confusers of the cyclone fire extinguisher vortices are formed - the main and counter, with axial, peripheral layers; when the cyclone fire extinguisher is brought to the source of ignition in the rarefied space of the second, by the movement of the water stream, the cyclone-confuser of the cyclone fire extinguisher, the fire flame is involved together with unburned ash particles of non-combustible materials, non-combustible gases; which, while burning, heats up to a boil the water coming from the first, in motion, the cyclone-confuser to the second cyclone-confuser; steam and unburned particles mix with the water of the oncoming vortex of the second cyclone-confuser, forming an aerosol mixture, which moves along the overpass into the flow of the oncoming vortex from the first cyclone-confuser, mixes with the water of the counter vortex flow, then the resulting mixture is sent to cover the ignition source in order to extinguish fire.

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