RU2752455C1 - Device for extinguishing oil and gas fountains - Google Patents

Abstract

FIELD: firefighting equipment.SUBSTANCE: invention relates to firefighting equipment and, in particular, to ground vehicles for extinguishing fires of oil and gas fountains. The device for extinguishing the fire of oil and gas fountains includes a vehicle chassis, a control cabin and a fire monitor with a nozzle. It contains a battery with a gas-powder extinguishing agent and a device for supplying a gas-powder extinguishing agent to the extinguishing zone. Moreover, each battery includes a vessel with fire extinguishing powder and gas cylinders. The device for supplying a gas-powder fire extinguishing agent to the extinguishing zone includes a controllable fire monitor that can be rotated in the horizontal and vertical planes and a video surveillance device.EFFECT: invention ensures effective extinguishing of oil and gas fountains with extinguishing of vast areas of fire of oil and gas fountains with a flow rate of about 1 million m3/day and more in gas.35 cl, 2 dwg

Description

The invention relates to fire fighting equipment and, in particular, to ground vehicles for extinguishing fires of oil and gas fountains arising during the development of gas, oil and gas-oil wells during drilling or operation.

A device for liquidation of emergencies is known from the "Level of Technology", which contains a highly passable vehicle chassis, a control cabin, a turntable with an aircraft engine installed on it and a device for moving the latter in vertical and horizontal planes, a battery of cylinders, a punch barrel and a powder system. The device is equipped with a means for supplying gaseous nitrogen from a battery of cylinders to the jet of an aircraft engine, and the punch barrel is made with replaceable tips with the possibility of supplying a gaseous flow cooled to temperatures of (-20) - (-50) ° C to the emergency zone. In this case, the device is equipped with movable hydraulic supports, ensuring the stability of the movement of the vehicle around the object, and a device for supplying exhaust gases from the vehicle (see RF patent No. 2205117, CL. MPK В60Р 9/00, publ. 27.05.2003).

In addition, from the "Level of Technology" known a powder fire extinguishing vehicle containing containers with a fire extinguishing composition placed on the chassis, a pressure source, a fire monitor, hand barrels with sleeves, a body, a control panel, a fire extinguishing agent aeration device, pneumatic communication with safety valves and a shut-off fittings. The pressure source is made in the form of an installation equipped with a receiver, which includes compressor heads driven from a power take-off box of a car, and a device for aerating the fire extinguishing composition in each of the containers with a fire extinguishing composition is made in the form of a collector installed in the lower bottoms of the latter, equipped with nozzles connected to the installation equipped with a receiver ... In this case, each of the nozzles is a branch pipe, closed from the outside with rubber rings, and the car is made with the possibility of pneumatic loading of the extinguishing composition (see RF patent No. 2158154, class MPK A62S 27/00, publ. 27.10.2000).

The technical problem lies in the limited use for extinguishing large areas of fire, low efficiency of extinguishing fountains with a flow rate of about 1 million m ³ / day. and more on gas.

The object of the present invention is to eliminate the above disadvantages.

The technical result consists in providing effective extinguishing of oil and gas fountains with extinguishing of vast areas of fire of oil and gas fountains with a flow rate of about 1 million m ³ / day. and more on gas.

The technical result is provided by the fact that the device for extinguishing the fire of oil and gas fountains includes a vehicle chassis, a control cabin and a fire monitor with a nozzle. It contains a battery with a gas-powder extinguishing agent and a device for supplying a gas-powder extinguishing agent to the extinguishing zone. Moreover, each battery includes a vessel with fire extinguishing powder and gas cylinders. The device for supplying a gas-powder fire extinguishing agent to the extinguishing zone includes a controllable fire monitor that can be rotated in the horizontal and vertical planes and a video surveillance device. In addition, the device is made with the possibility of supplying a gas-powder jet to the base of the burning part of the fountain, and the fire monitor is made with the possibility of targeted supply of a jet of gas-powder substance to the extinguishing zone by means of a video surveillance device containing a video camera of the direction of the axis of the nozzle, made with the possibility of fixing near the nozzle and transmitting the image to monitor located in the control cabin.

In accordance with particular cases of execution, the device for extinguishing the fire of oil and gas fountains can have the following features.

Gas cylinders are high-pressure cylinders, in addition, they are equipped with shut-off and starting devices for sealing and releasing compressed or liquefied gases under pressure.

The device for extinguishing the fire of oil and gas fountains contains two batteries with a gas-powder fire extinguishing agent, while each battery consists of a vessel with a volume of 0.5 to 1.5 m ³ with fire extinguishing powder and from three to five cylinders with a capacity of 50 to 150 each, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.5 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.5 to 1 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 1 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 1 to 1.5 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 1.5 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.75 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 1.25 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.75 to 1.5 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.5 to 1.25 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains a vessel with a volume of 0.75 to 1.25 m ³ with fire extinguishing powder.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains three cylinders with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains four cylinders with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains five cylinders with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains from three to four cylinders with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains from four to five cylinders with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders, each with a capacity of 50 liters, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders with a capacity of 50 to 100 liters each, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders, each with a capacity of 100 liters, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders with a capacity of 100 to 150 liters each, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders, each with a capacity of 150 liters, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders, each with a capacity of 75 liters, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders, each with a capacity of 125 liters, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders with a capacity of 75 to 150 liters each, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders with a capacity of 50 to 125 liters each, with liquid carbon dioxide.

A device for extinguishing the fire of oil and gas fountains, each battery of which contains cylinders with a capacity of 75 to 125 liters each, with liquid carbon dioxide.

The device for extinguishing the fire of oil and gas fountains additionally contains a fire extinguishing gas supply manifold, which makes it possible to combine gas cylinders into one battery and supply liquid carbon dioxide to a vessel with a fire extinguishing powder.

The device for supplying a gas-powder substance to the extinguishing zone additionally includes a flexible metal hose made with the possibility of being connected to a battery.

At the point where the nozzle is fixed to it, the monitor is fixed on a movable base by means of a rotary flange, while the monitor is made with the ability to move in horizontal and vertical planes by means of linear drives. In addition, the rotary flange is made with the possibility of fixing the direction of the axis of the attachment to it and above the attachment of the video camera so that the alignment of the vertical axes of the video camera and the attachment is ensured.

The maximum angle of rotation of the fire monitor in the horizontal plane is ± 9 ° and in the vertical plane - ± 15 °. In addition, the nozzle of the fire monitor provides the possibility of supplying the gas-powder substance to the extinguishing zone and is a flat nozzle.

The control cabin contains a control panel with control levers for linear drives of the fire monitor and buttons for starting the batteries of the fire extinguishing installation, as well as a video recorder that provides the ability to record and store the guidance and extinguishing process in its memory, and the monitor located in the control cabin has an aiming marking.

The device for extinguishing the fire of oil and gas fountains additionally contains a water tank, which enables irrigation of the device for extinguishing the fire of oil and gas fountains.

The chassis is unmanned with radio remote control from a safe area.

The essence of the present invention is illustrated by the following illustrations: FIG. 1 is a general view of a device for extinguishing a fire of oil and gas fountains; FIG. 2 - a device for extinguishing the fire of oil and gas fountains with an irrigation system.

A device for extinguishing a fire of oil and gas fountains includes a vehicle chassis 1, a platform 2, a control cabin, a vessel with fire extinguishing powder 3, gas cylinders 4 (use inert gases and gases that inhibit the combustion reaction, which do not enter into a chemical reaction with the fire extinguishing powder and perform the function carrier gas), a water tank 5, a gas-powder mixture collector 6 (GPOV), a fire extinguishing gas supply manifold 7, a fire monitor 8 with a nozzle. In this case, the superstructure on the chassis 1 of the car includes batteries with a gas-powder fire extinguishing agent, a device for supplying a gas-powder fire extinguishing agent to the extinguishing zone and a water tank 5. In this case, each battery contains a vessel with a fire-extinguishing powder 3 and gas cylinders 4, and a device for supplying a gas-powder fire extinguishing agent the extinguishing zone includes a controllable fire monitor 8 that can be rotated in the horizontal and vertical planes and a video surveillance device. In addition, the device is configured to supply a gas-powder jet to the base of the burning part of the fountain, and the fire monitor is configured to accurately supply a jet of gas-powder substance to the extinguishing zone by means of a video surveillance device containing a video camera for the direction of the nozzle axis, made with the possibility of fixing over the nozzle and transmitting the image to monitor located in the control cabin.

Gas cylinders 4 are high pressure cylinders with the following characteristics:

Cylinder volume, l: 50 to 150, preferably 100; Working environment: liquid carbon dioxide; Working pressure, MPa: twenty; Operating temperature: from - 20 to + 65 ° С; Specified service life: 20 years;

Gas cylinders are equipped with shut-off devices for sealing and releasing compressed or liquefied gases under pressure. Devices with the following characteristics are used:

ZPU type - solenoid valve; Shutter position: normally closed; Flow area of the valve DN, mm: fifteen; Working pressure, MPa, not less: twenty; Shutter tightness: class A; Working environment temperature: from - 20 to + 60 ° С; Supply voltage: 24V;

The locking and starting device must be able to refill the cylinder with gas multiple times and operate on a signal from the control panel.

A device for extinguishing a fire of oil and gas fountains contains two batteries with a gas-powder extinguishing agent, each battery consisting of a vessel with a volume of 0.5 to 1.5 m ³ , preferably 1 m ³ , with a fire extinguishing powder and from three to five, preferably five, cylinders, with a capacity of 50 to 150 liters, preferably 100 liters, each with liquid carbon dioxide. In this case, a vessel with a fire extinguishing powder can have a volume of: 0.5 m ³ , from 0.5 to 1 m ³ , 1 m ³ , from 1 to 1.5 m ³ , 1.5 m ³ , 0.75 m ³ , from 0.75 to 1.5 m ³ , 1.25 m ³ , from 0.5 to 1.25 m ³ or from 0.75 to 1.25 m ³ , cylinders can be: three, four, five, from three to four or from four to five, and the volume of cylinders can be: 50 l, from 50 to 100 l, 100 l, from 100 to 150 l, 150 l, 75 l, 125 l, from 75 to 150 l, from 50 up to 125 liters or from 75 to 125 liters.

The device uses a vessel with fire extinguishing powder with the following characteristics:

Vessel volume, m ³ : 0.5 to 1.5, preferably 1; Operating pressure: atmospheric; Working pressure during emptying, MPa: 2.5; Time spent under working pressure when emptying, s: 25; The number of loading cycles of the vessel for the entire service life, not less: 600; Vessel main material: steel 09G2S.

For inspection and maintenance, the vessel has a hatch with an internal diameter of at least 450 mm. The hatch is located so that access to the vessel is provided without dismantling the chassis superstructure.

The vessel is equipped with a safety valve preventing the creation of a pressure of more than 3 MPa in it when a gas extinguishing agent enters it.

The device for extinguishing the fire of oil and gas fountains additionally contains a fire extinguishing gas supply manifold 7, which makes it possible to combine gas cylinders 4 into one battery and supply liquid carbon dioxide to a vessel 3 with a fire extinguishing powder. In addition, the device has a gas-powder mixture collector 6, which supplies GPOV to the fire monitor 8 and contains a pipeline with a valve. In this case, the valve of the gas-powder pipeline is installed at the outlet of the vessel 3 for storing the fire-extinguishing powder to prevent the fire-extinguishing powder from spilling out into the supply pipeline before the start of the installation. It opens on a signal from the remote control before the release of the GPOV.

The device for supplying a gas-powder substance to the extinguishing zone additionally includes a flexible metal hose made with the possibility of being connected to a battery. In addition, a flexible metal hose is used to fix the nozzle.

The water tank 5 is designed to store water. Water is used to irrigate the device for extinguishing the fire of oil and gas fountains to protect equipment and personnel from the heat flow of a burning fountain from the moment they enter the zone of high heat fluxes when moving to the starting position, during extinguishing and until leaving at a safe distance. The volume of the container is not less than 3000 liters. The water tank 5 is an element of the irrigation system of the device for extinguishing the fire of oil and gas fountains, which also additionally includes irrigation pipelines 9, fixed in the upper part of the body and intended for irrigation of the installation along the perimeter and on top, a water supply pump for irrigation 10, which provides water flow for irrigation 2 l / s, solenoid valve 11, made with the possibility of functioning according to a signal from the control panel, nozzles 12, providing water supply from irrigation pipelines 9.

The carriage 8 in the place of fixation to it, the nozzle is fixed on the base, movably fixed on the platform 2, by means of a rotary flange. In this case, the fire monitor 8 is made with the ability to move in the horizontal and vertical planes (in the horizontal plane, movement is provided by the base, and in the vertical plane - by means of a rotary flange fixed between the shelves of the base) by means of linear drives. In addition, the rotary flange is made with the possibility of fixing the video camera of the direction of the nozzle axis to it so that the alignment of the vertical axes of the video camera and the nozzle is ensured.

The maximum angle of rotation of the fire monitor 8 in the horizontal plane is ± 9 ° and in the vertical plane - ± 15 °, and the nozzle of the fire monitor provides the possibility of supplying the gas-powder substance to the extinguishing zone and is a flat nozzle.

In the cab of the car there is a monitor with an aiming markings printed on the screen and a control panel on which there are drive control levers for turning the fire monitor and buttons for starting the batteries of the fire extinguishing installation and control valves. Using the drive control levers, the image of the extinguishing zone is aligned with the crosshair of the sight, which means that the axis of the fire monitor nozzle is directed to the extinguishing zone. After aiming with the trigger button, one of the batteries starts up. The process of aiming and extinguishing is recorded in the memory of the video recorder.

In accordance with the special case of the implementation of the chassis can be made unmanned with remote radio control from a safe area. The device operates as follows.

The extinguishing of a burning oil and gas fountain is carried out using a high-speed gas-powder jet fed into the base of the burning part of the fountain.

Before the start of extinguishing, the mouth of the fountain must be cleared of the remains of metal structures and the entrance to the combat position must be prepared for extinguishing the fountain.

In the event of a gas-oil fountain fire, a gas-powder fire extinguishing vehicle (AGPP) controlled by an operator is brought to the wellhead.

The AGPP irrigation system to protect equipment and personnel from the heat flow of a burning fountain is launched from the moment they enter the zone of high heat flows when moving to the starting position, during extinguishing and until leaving a safe distance.

When moving to the starting position, the operator ensures the receipt of GPOV by opening the solenoid valves of the ZPU on a signal from the control panel, releasing compressed or liquefied gases from the gas cylinders 4 into the fire extinguishing gas collector 7 and supplying liquid carbon dioxide to the vessel 3 with the fire extinguishing powder. Further, the gas-powder mixture collector 6 enters the gas-powder mixture, which ensures the supply of the gas-powder mixture to the fire monitor 8 and contains a pipeline with a valve, which opens upon a signal from the control panel before the gas-powder mixture is released.

The extinguishing was provided by a compact jet perpendicular to the jet of the fountain directed into the non-burning part of the fountain.

The compact GPOV jet was formed by a special slotted nozzle and had an opening angle of 10 ° in the horizontal plane and 5 ° in the vertical plane.

The extinguishing took place in less than 1 s from the moment of the beginning of the GPOV supply. The GPOV jet actually blew off the fuel fountain away from the outflow axis, created a fire extinguishing concentration of GPOV around the outflowing fuel jet, stopped contact of the non-burning and burning parts of the fountain during the AGPP operation and ensured reliable fire extinguishing. In this case, the average second flow rate of GPOV was 1.4 kg / s, and the operating time of the AGPP fire extinguishing with precise guidance was 8 s.

The mechanism for extinguishing burning fountains is based on the introduction of fire extinguishing agents into the stream of a fountain and is measured by the amount of these agents supplied per unit of time per unit of flow rate of a gushing well. In practical terms, the feed rate was determined by the specific consumption of the extinguishing agent in kg / s per 1 million m ³ / day of gas or 1000 m ³ / day of oil. The equivalent conversion factor of oil-to-gas consumption is taken as 1 m ^{3 of} oil = 1000 m ^{3 of} gas. The amount of specific costs depends on the type of extinguishing agent, the method of supply and the conditions for mixing it with the fountain substance. The total consumption of fire extinguishing agents required to extinguish the fountain was determined as the product of the specific consumption and the flow rate of the gushing well.

where G _t is the consumption of fire extinguishing agents, kg / s;

q _t - specific consumption of fire extinguishing agents, kg / s per 1 million m ³ / day of gas or 1000 m ³ / day of oil;

Q _f - flow rate of a gushing well, million m ³ / day of gas or 1000 m ³ / day of oil.

Thus, to extinguish the fountain ^{with a flow rate of 1000 m 3} / day of oil, 8.1 kg / s of GDOV were required. Consequently, the specific consumption of GPOV per 1 million m ³ / day of gas or 1000 m ³ / day of oil q _t = 8.1 kg / s. Knowing this value, it is possible to calculate by the formula (1) the flow rate of GPOV for extinguishing an oil and gas fountain of a given power.

The optimal distance from the axis of the fountain, from which the GPOV jet should be supplied to effectively extinguish the fountain, was determined as follows.

The effective range of the GPOV jet L is proportional to the diameter of the nozzle orifice d, from which the GPOV flows out at a constant specific mass flow rate of the GPOV through the unit of the nozzle area G ₀ .

In this case:

откуда

where

соответственно из соотношений (1), (2) и (3) следует, что:

respectively, from relations (1), (2) and (3) it follows that:

In the experiment with the model fountain distance from the axis to the fountain nozzle, from which the outflow SESA was 1 m, in accordance with (4) a distance effective for extinguishing fountain debit 1000 m ³ / day of oil:

L ₁₀₀₀ = 1 * (1000/173) ^1/2 = 2.4 m

Accordingly, for a vertical compact fountain of arbitrary power, the effective distance from the nozzle to the fountain axis will be determined by the formula:

The obtained values of the distances from the nozzle to the fountain axis are safe for personnel, since the nozzle is supplied to the fountain mouth at the AGPP with appropriate thermal protection. For the best result, the nozzles should be installed on a movable fire monitor 8 with a remote control and an infrared sight (infrared video camera), and the whole device should be equipped with thermal protection.

When designing the mount of the fire monitor and the structure of platform 2, on which it is movably fixed, the action of the reactive force arising from the outflow of the GPOV from the nozzle was also taken into account.

where ν = 80 m / s-100 m / s is the linear velocity of the GPOV outflow from the nozzle.

Thus, the design features of a device for extinguishing a fire of oil and gas fountains with a battery with a gas-powder fire extinguishing agent and a device for feeding a gas-powder fire extinguishing agent, which includes a controllable fire monitor that can be rotated in the horizontal and vertical planes and a video surveillance device, make it possible to effectively extinguish fountains with a flow rate of about 1 million m ^3. / day and more for gas.

Additionally, the design features of the device, due to the presence of an irrigation system, provide reliable protection for personnel and equipment of the AGPP when extinguishing oil and gas fountains.

Claims (35)

1. A device for extinguishing a fire of oil and gas fountains, including a vehicle chassis, a control cabin and a fire monitor with a nozzle, characterized in that it contains a battery with a gas-powder extinguishing agent and a device for supplying a gas-powder extinguishing agent to the extinguishing zone, while each battery contains a vessel with fire extinguishing powder and gas cylinders, and the device for supplying a gas-powder fire extinguishing agent to the extinguishing zone includes a controllable monitor that is rotatable in the horizontal and vertical planes and a video surveillance device, in addition, the device is configured to supply a gas-powder jet to the base of the burning part of the fountain, and the monitor is made with the possibility of targeted supply of a jet of gas-powder substance to the extinguishing zone by means of video monitoring, containing a video camera of the direction of the axis of the nozzle, made with the possibility of fixing near the nozzle and transmitting the image to a monitor located in the control cabin. 2. The device according to claim 1, characterized in that the gas cylinders are high-pressure cylinders, in addition, they are equipped with shut-off and starting devices for sealing and releasing compressed or liquefied gases under pressure. 3. The device according to claim 1, characterized in that it contains two batteries with a gas-powder extinguishing agent, and each battery consists of a vessel with a volume of 0.5 to 1.5 m³ with fire extinguishing powder and from three to five cylinders, with a capacity of 50 to 150 liters each, with liquid carbon dioxide. 4. The device according to claim. 3, characterized in that each battery contains a vessel with a volume of 0.5 m ³ with fire extinguishing powder. 5. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 0.5 to 1 m ³ with fire extinguishing powder. 6. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 1 m ³ with fire extinguishing powder. 7. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 1 to 1.5 m ³ with fire extinguishing powder. 8. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 1.5 m ³ with fire extinguishing powder. 9. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 0.75 m ³ with fire extinguishing powder. 10. The device according to claim. 3, characterized in that each battery contains a vessel with a volume of 1.25 m ³ with fire extinguishing powder. 11. The device according to claim 3, characterized in that each battery contains a vessel with a volume of 0.75 to 1.5 m ³ with fire extinguishing powder. 12. The device according to claim. 3, characterized in that each battery contains a vessel with a volume of 0.5 to 1.25 m ³ with fire extinguishing powder. 13. The device according to claim. 3, characterized in that each battery contains a vessel with a volume of 0.75 to 1.25 m ³ with fire extinguishing powder. 14. The device according to claim 3, wherein each battery contains three cylinders of liquid carbon dioxide. 15. A device according to claim 3, wherein each battery contains four cylinders of liquid carbon dioxide. 16. The device according to claim 3, wherein each battery contains five cylinders of liquid carbon dioxide. 17. The device according to claim 3, characterized in that each battery contains from three to four cylinders with liquid carbon dioxide. 18. The device according to claim 3, characterized in that each battery contains from four to five cylinders with liquid carbon dioxide. 19. The device according to claim. 3, characterized in that each battery contains cylinders, each with a capacity of 50 liters, with liquid carbon dioxide. 20. The device according to claim 3, characterized in that each battery contains cylinders, each with a capacity of 50 to 100 liters, with liquid carbon dioxide. 21. The device according to claim. 3, characterized in that each battery contains cylinders, each with a capacity of 100 liters, with liquid carbon dioxide. 22. The device according to claim. 3, characterized in that each battery contains cylinders, each with a capacity of 100 to 150 liters, with liquid carbon dioxide. 23. The device according to claim 3, characterized in that each battery contains cylinders, each with a capacity of 150 liters, with liquid carbon dioxide. 24. The device according to claim 3, characterized in that each battery contains cylinders, each with a capacity of 75 liters, with liquid carbon dioxide. 25. The device according to claim. 3, characterized in that each battery contains cylinders, each with a capacity of 125 liters, with liquid carbon dioxide. 26. The device according to claim 3, characterized in that each battery contains cylinders, each with a capacity of 75 to 150 liters, with liquid carbon dioxide. 27. The device according to claim 3, characterized in that each battery contains cylinders, each with a capacity of 50 to 125 liters, with liquid carbon dioxide. 28. The device according to claim. 3, characterized in that each battery contains cylinders, each with a capacity of 75 to 125 liters, with liquid carbon dioxide. 29. Device according to any one of paragraphs. 1-28, characterized in that it additionally contains a fire extinguishing gas supply manifold, which makes it possible to combine gas cylinders into one battery and supply liquid carbon dioxide to a vessel with a fire extinguishing powder. 30. The device according to claim. 1, characterized in that the device for supplying a gas-powder substance to the extinguishing zone additionally includes a flexible metal hose made with the possibility of connecting to a battery. 31. The device according to claim. 1, characterized in that the monitor at the place of fixation to it, the nozzle is fixed on a movable base by means of a rotary flange, while the monitor is made with the ability to move in the horizontal and vertical planes by means of linear drives, in addition, the rotary flange is made with the possibility of fixing to it and above the video camera attachment the direction of the attachment axis so that the alignment of the vertical axes of the video camera and the attachment is ensured. 32. The device according to claim 1, characterized in that the maximum angle of rotation of the fire monitor in the horizontal plane is ± 9 ° and in the vertical plane - ± 15 °, and the nozzle of the fire monitor provides the possibility of supplying the gas-powder substance to the extinguishing zone and is a flat nozzle ... 33. The device according to claim 1, characterized in that the control cabin contains a control panel with control levers for linear actuators of the fire monitor and buttons for starting the battery of the fire extinguishing installation, as well as a video recorder that provides the ability to record and store in its memory the guidance and extinguishing process, and the monitor , located in the control cabin, has an aiming markings. 34. The device according to claim 1, characterized in that it further comprises a water tank, which enables irrigation of the device for extinguishing the fire of oil and gas fountains. 35. The device according to claim 1, characterized in that the chassis is unmanned with remote radio control from a safe area.

Images