RU2288013C2 - Method of burning elimination in the gallery premises - Google Patents

Abstract

FIELD: fires elimination; methods of fires elimination in the gallery premises.

SUBSTANCE: the invention is pertaining to the field of the processes of the fire elimination at the plants of power, and may be used in the galleries in the fuel feeding systems. The technical result of the invention is increased reliability and safety of elimination of the deflagration burning of the fuel dust, reduction of the duration of elimination of burning and the volume of the fed liquid. The result is reached due to the fact, that the method of elimination of the deflagration burning in the gallery premises provides for the recording of inflammation by the sensor units, the signals processing, feeding of the command signal to the executive body with the subsequent initiation of feeding of the fire-extinguishing liquid into the room in compliance with the solution. The feeding of the fire-extinguishing liquid at the first stage conduct in the form of the hydraulic screen in the areas, which are beyond the limits of the inflammation with the possibility to overlap the cross section of the room. At the second stage realize the feeding of the liquid in the burning zone. At that the hydraulic screen is kept for the time T_Scr = k(L/V), where: T_Scr - a time span of feeding of the fire-extinguishing liquid, s; V - the speed of deflagration burning of the fuel dust, m\s; L - the length of the section of the in the gallery between the hydraulic screen, m; k - the assurance factor (0.1-1.2); feeding of the liquid in the burning zone is exercised through the sputtering injectors with the irrigation of the section between the boundaries of the hydraulic screen coverage with consumption of the liquid of 0.1-0.5 l per 1 square meter of the area. At that the feeding of the liquid at the second stage in the burning zone is exercised with the sequential irrigation of the room in direction from the hydraulic screen boundaries to the center of the burning area maintaining the time of irrigation of no less than 2.0 T_Scr.

EFFECT: the invention ensures the increased reliability and safety of elimination of the deflagration burning of the fuel dust, reduction of the duration of the burning elimination and the volume of the fed liquid.

5 cl

Description

The invention relates to processes for eliminating fires at energy facilities and can be applied in galleries on fuel supply paths.

The task of eliminating combustion of fuel dust in gallery rooms, in particular on fuel supply paths, is characterized by mutually exclusive requirements. It is necessary to supply a fire extinguishing liquid with high productivity (water, as the most effective fire extinguishing composition), however, a large water consumption leads to a significant increase in the load on the supporting elements of the gallery space, especially in winter (icicles and freezing of surfaces), requires an expensive high-performance pumping and trunk equipment. The most difficult to eliminate is the ignition and deflagration combustion of dust, because the speed of advancement of the front of such combustion is 10 m / s, which does not allow timely prevention of the spread of combustion otherwise than by supplying water over the entire area of the gallery path. As a result, the load on the structural elements of the gallery increases sharply, there is a danger of destruction of the latter. The use of high-speed and high-performance feeds of aerosol, water-air and gas extinguishing compositions allows preventing the spread of the combustion front outside the gallery, but at the same time leads to aeration of the dust lying on the surfaces between the boundaries of deflagration combustion and the initiation of repeated outbreaks - explosions, which is destructive and dangerous for structural elements of the gallery premises.

A known method of extinguishing a fire of a complex technological object, which consists in the direction of the extinguishing agent into the fire, characterized in that the extinguishing agent in the fire is sent by pulsed by cyclic supply of a single-phase liquid at a speed close to 1500 m / s and then a propellant, pre-filled in a cylinder under ultrahigh pressure / RU Patent No. 2211061, 2003 /.

The known method is not effective enough for gallery type premises, because it does not stop the propagation of the combustion front and initiates repeated explosions of aerated dust under conditions of deflagration combustion; it does not provide the necessary irrigation of the dust layer on the working surfaces to prevent surface combustion.

A known method of extinguishing fire, which consists in the stage of directing the sprayed non-flammable liquid from the spraying means to the danger zone, the spraying means having a reservoir, and supplying the non-flammable liquid through the spraying means under pressure to create fog and create an atmosphere that will not support combustion, characterized in that the reservoir volume is less than 1 liter per 1 m ³ of volume of the danger zone and the spraying means supplies the non-flammable liquid under pressure m of less than 20.4 kgf / cm ² in an amount of about 1 L / min per 1 m ³ of the danger zone with an average droplet size of 500 microns to strengthen fog exposure to flame / RU Patent №2143937, 2000 /.

The known method is not effective enough for gallery type premises, because it does not exclude the spread of deflagration combustion beyond the spray boundaries due to insufficient continuity and heat capacity of a unit of protection volume; it does not provide quick wetting of the dust layer on working surfaces to prevent surface burning. The closest is a method for localizing an explosion of dusty or gas-explosive explosive mixtures in technological equipment and structures, characterized in that they exclude the spread of explosive combustion products through communications connecting equipment and structures by creating a shutter, while the shutter is created by introducing an inhibitory communication zone into the explosive zones supersonic aerosol / RU Patent No. 211777, 1998 /.

The known method is not effective enough for gallery type premises, because initiates repeated explosions of aerated dust under conditions of deflagration combustion, does not provide the necessary irrigation of the dust layer on the working surfaces to prevent surface combustion.

The objective of the invention is to increase the reliability and safety of the elimination of deflagration combustion of fuel dust in gallery rooms, reducing the time to eliminate combustion and the volume of liquid supplied.

The problem is solved in that in a method for eliminating combustion in gallery rooms, including registering a fire with sensors, processing signals, supplying a command signal to an actuator, followed by initiating the supply of extinguishing fluid to the room, according to the solution, the supply of extinguishing fluid at the first stage is performed in the form of a hydraulic curtain in areas beyond the boundaries of ignition with the possibility of overlapping the cross section of the room, and at the second stage, the liquid is supplied to the combustion zone, while the hydraulic curtain is carried out during the time T _head. = k (L / V),

where: T _head. - period of time for the supply of extinguishing fluid, s;

V is the rate of deflagration combustion of fuel dust, m / s;

L is the length of the gallery section between the hydraulic curtains, m;

k is the safety factor (0.1-1.2),

and the liquid is supplied to the combustion zone through spray nozzles with irrigation of the area between the boundaries of the hydraulic curtains with a liquid flow of 0.1-0.5 l per 1 m ² area, while the liquid at the second stage is supplied to the combustion zone with sequential irrigation of the room from the boundaries of the operation of the hydraulic curtains to the center of combustion withstanding an irrigation time of at least 2.0 T _head .

Distinctive features are:

- the supply of extinguishing fluid at the first stage is performed in the form of a hydraulic curtain in areas beyond the boundaries of ignition with the possibility of overlapping the cross section of the room, and at the second stage, the supply of liquid to the combustion zone (which prevents the spread of deflagration combustion of fuel dust increases the reliability and safety of elimination of fire );

- the hydraulic curtain is carried out during the time T _head. = k (L / V), where: T _head. - period of time for the supply of extinguishing fluid, s;

V is the rate of deflagration combustion of fuel dust, m / s;

L is the length of the gallery section between the hydraulic curtains, m;

k is the safety factor (0.1-1.2) (which ensures the reliability and safety of elimination of deflagration combustion while reducing the volume of the supplied liquid);

- the liquid is supplied to the combustion zone through spray nozzles with irrigation of the area between the boundaries of the hydraulic curtains with a specific liquid flow rate of 0.1-0.5 l / s per 1 m2 ^of area (which ensures the reliability and safety of eliminating dust burning on room surfaces) ;

- the liquid supply at the second stage to the combustion zone is performed with sequential irrigation of the room from the boundaries of the hydraulic curtains to the combustion center (which ensures the safety of eliminating dust combustion without initiating secondary foci of combustion);

- the time by irrigation of the section between the boundaries of operation of the curtains can withstand at least 2.0 T _factory (which ensures the reliability of eliminating dust combustion while reducing the flow rate of the supplied liquid).

Thus, the claimed solution meets the criterion of "novelty."

Comparison of the proposed solutions with analogues did not allow them to identify signs that distinguish the claimed solution from the prototype, which allows us to conclude that its criterion of "inventive step".

The method is implemented as follows.

Example 1

In the layout of the gallery with a total length of 28 m, a cross-section of 4 m ² , equipped with a monitoring and signal processing system with infrared sensors installed at 10 m intervals and equipped with a spraying system with separately initiated water spray areas (with a length of 6 m each), imitated the process of elimination of fire. Previously, 10 baking sheets 30 × 30 cm with burning coal dust were placed on horizontal surfaces at various heights with a dust layer thickness of 1, 2, 3, 4, and 5 cm. Polydispersed coal dust with a particle size of up to 400 microns was used. Full-dispersed (up to 180 microns) coal dust was blown into the central part of the gallery layout with an ejection nozzle, followed by the initiation of deflagration combustion by an electric discharge. The previously determined minimum rate of deflagration combustion of coal dust corresponded to 10 m / s. They took a safety factor of 1.0. The length of the section between the hydraulic curtains was 24 m. The estimated duration of the curtains was estimated to be 2.4 s. In four sections between the boundaries of operation of the hydraulic curtains through spray nozzles, sections were irrigated sequentially towards the center of the gallery for 4.8 s, with a specific water flow rate of 0.1 l / s per 1 m ² . The total estimated volume of water to eliminate the fire is not more than 25 liters. As a result, deflagration combustion is eliminated at the boundaries of hydraulic curtains. Coal dust burning on baking sheets with a thickness of dust layers of 1, 2, 3, 4 cm was eliminated, and on a baking sheet with a thickness of 5 cm, burning continued fragmentarily for 15-24 seconds, which indicates incomplete irrigation of the specified dust layer with a thickness of 5 cm .

Example 2

In the gallery layout under similar conditions to Example 1, the process of eliminating the fire was imitated. The estimated operating time of the curtains at a selected reliability factor of 1.2, taking into account the deflogration burning rate of coal dust of 15 m / s, was set to 1.92 s. Irrigated areas for 3.84 s, with a specific water flow rate of 0.5 l / s per 1 m ² . The total estimated volume of water to eliminate the fire is not more than 93 liters. As a result, deflagration combustion was eliminated at the boundaries of the hydraulic curtains, coal dust burning on all baking sheets with a dust layer thickness of 1, 2, 3, 4, 5 cm was also eliminated.

The method of elimination of combustion in gallery rooms allows to ensure the reliability and safety of elimination of deflagration combustion of fuel dust, reduces the time of elimination of combustion and the volume of liquid supplied.

Claims (5)

1. A method of eliminating deflagration combustion in gallery rooms, including registering a fire with sensors, processing signals, supplying a command signal to an actuator, followed by initiating the supply of extinguishing fluid to the room, characterized in that the supply of extinguishing fluid at the first stage is performed as a hydraulic curtain in zones located beyond the boundaries of ignition with the possibility of overlapping the cross section of the room, and at the second stage, the liquid is supplied to the combustion zone. 2. The method according to claim 1, characterized in that the hydraulic curtain is carried out over time T _head = k (L / V), where T _head. - period of time for the supply of extinguishing fluid, s; k is the safety factor (0.1-1.2); L is the length of the gallery section between the hydraulic curtains, m; V is the rate of deflagration combustion of fuel dust, m / s. 3. The method according to claim 1, characterized in that the liquid is supplied to the combustion zone through spray nozzles with irrigation of the area between the operation limits of the hydraulic curtains with a specific liquid flow rate of 0.1-0.5 l / s per 1 m ² area. 4. The method according to claim 1, characterized in that the liquid supply at the second stage to the combustion zone is performed with sequential irrigation of the room from the boundaries of operation of the hydraulic curtains to the center of combustion. 5. The method according to claim 3, characterized in that the irrigation time of the area between the boundaries of the operation of the curtains can withstand at least 2.0 T _plant .