RU2037321C1 - Method and device for extinguishing fire in gas, oil and gas-oil well gushers - Google Patents

Abstract

FIELD: fire control. SUBSTANCE: gas and liquid jet is brought into the region below the burning portion of a gusher and hold below the burning portion of a gusher until the flame separates. Then the jet is moved upwards along the gusher axis until the flame is brought from the zone of gusher directional action. Device has a self-propelled carriage with a platform and casing having motor, drive moving the motor, pipes and collectors to feed the fire-extinguishing liquid into exhaust gas jet. EFFECT: enhanced effectiveness in extinguishing fire. 2 cl, 7 dwg

Description

 The group of inventions relates to fire extinguishing, mainly to extinguish fires of gas, oil and gas-oil wells.

 A known method of extinguishing a fire on a burning surface [1] and a device for its implementation.

 The method of extinguishing a fire consists in disrupting a flame directed at an acute angle to the surface by a gas stream containing, respectively, gas and vapor extinguishing liquid.

 A device for implementing the method comprises a jet engine stationary on a vehicle with a nozzle and a nozzle, a capacity of a fire extinguishing liquid with a fluid supply pipe to the nozzle, and a nozzle is installed at the end of the pipeline.

 The disadvantage of this invention [1] is the low efficiency of extinguishing a fire due to the possibility of re-ignition of the surface with insufficient power of the gas-liquid jet or with fluctuations in the supply pressure of the gas-liquid jet, since the flame only breaks off by the gas stream from the burning surface, and is not removed from the surface zone to be quenched.

 A known installation of gas-water fire extinguishing in gas, oil and gas-oil wells [2] and implemented using this installation method of extinguishing a fire.

 The gas-water fire extinguishing installation contains a chassis with a rotary platform, a turbojet engine mounted on it with a nozzle equipped with an ejector with a displacement chamber, inside which water sprayers are evenly placed.

 The method of extinguishing fires, carried out using this installation, is to supply a gas-water jet to a burning fountain so that the major axis of the ellipse of the confuser coincides with the longitudinal axis of the fountain, and the lower boundary of the gas-water jet is lower than its burning part.

 Installation for extinguishing fires [2] and the method of extinguishing fires of fountains of wells realized with its help, as the closest means of the same purpose for the totality of signs taken as a prototype.

 The disadvantage of the method of extinguishing fountains of gas and (or) oil wells is low efficiency due to the possibility of re-reward, and therefore, the long duration of extinguishing a fountain fire. Since the gas-liquid jet is supplied to the base of the fountain, it mixes with the intervals of the fountain (i.e., with oil or gas flowing out of the well) and at the same time remains at a constant height, in the case of a decrease in the energy of the gas-liquid flow, the lower non-burning part of the front can interact with the upper burning part of the fountain, and the original burning mode of the fountain will be restored.

 The proposed group of inventions is aimed at solving the problem of improving the efficiency of eliminating fires from fountains of wells using exhausted aircraft jet engines by providing the ability to remove the flame from the directional zone of the fountain.

 The claimed result (goal) is achieved due to the fact that in the proposed method of extinguishing fires of fountains of gas, oil and gas wells, which consists in supplying a gas-liquid jet to the fountain below the burning part of the fountain (common features with the prototype), the gas-liquid jet is moved up along the axis of the fountain before removing the flame from the directional zone of the fountain.

 To implement the proposed method, an installation was created that contains a chassis with a rotary platform, a gas turbine engine with a nozzle, power supply systems and control of engine operating modes, extinguishing liquid nozzles and extinguishing liquid supply manifolds (common with the prototype features), in which a gas turbine is used to achieve its goal the engine is mounted to move in a vertical plane. In particular, the engine is placed in the casing with the formation of an annular gap between the inner surface of the casing and the outer surface of the engine and the nozzle, the casing is made in the form of two coaxially arranged annular shells, between which are located the fuel tanks, fuel lines and electronic units of the engine operation control system, the installation is equipped with a mounting frame pivotally connected to the housing and the turntable, and motor drives, one of which is installed between the turntable and the mounting frame, other between the mounting frame and the casing, and the nozzles-sprayers of the extinguishing fluid are located at an acute angle to the longitudinal axis of the engine.

 These differences are significant, since the removal of the flame from the directional zone of the fountain, which is carried out by allowing the engine to move in a vertical plane, includes the possibility of re-ignition of the fountain, therefore, the efficiency is increased and the duration of the fire fighting is reduced.

 In FIG. 1 shows a diagram of the initial stage of extinguishing a fire; in FIG. 2 fire extinguishing scheme at the stage of cutting off the flame from the fountain; in FIG. 3 a scheme for extinguishing a fire at the stage of displacement of the flame for the fountain; in FIG. 4 is a diagram for extinguishing a fire at the stage of completion of a fire extinguishing in a stage of crushing a flame; in FIG. 5 fire extinguishing scheme of an inclined fountain; in FIG. 6 installation for extinguishing a fire in the context; in FIG. 7 is a general view of the installation, position “a” for horizontal engine position, position “b” for downward position, position “c” for upward position.

 The proposed method of extinguishing fires of fountains of gas, oil and gas-oil wells is as follows.

 The exhaust gas flow of the gas turbine engine is oriented to the burning area so that the lower boundary of the jet is lower than the burning part of the fountain (Fig. 1).

 Then, a fire extinguishing liquid is supplied to the exhaust gas stream of the gas turbine engine, for example, water, for a certain period of time they act on the fountain and begin to lift the gas-liquid jet. If the burning in the lower part of the fountain continues, the gas-liquid jet is lowered below the combustible part of the fountain, the time period of the gas-liquid jet’s influence on the fountain is increased, and the gas-liquid jet again begins to rise at a speed at which breakthrough of the burning part of the torch into the non-burning part of the fountain is excluded.

The gas-liquid jet is moved up along the axis of the fountain until the flame separates from the fountain, while the axis of the torch is displaced relative to the axis of the fountain by a small amount Δ S ₁ , however, the axis of the fountain still passes through the torch (Fig. 2). Gradually continue to move the gas-liquid jet up. This leads to an increase in the displacement of the axis of the torch relative to the axis of the fountain to a value Δ S ₂ at which the axis of the fountain and the fire hearth do not intersect, which means removing the burning hearth from the directional zone of the fountain (see Fig. 3). For the final elimination of the hearth of fire continue to move the gas-liquid jet up to the crushing of the hearth into small damping foci (Fig. 4).

 In the proposed method, in the initial stage of extinguishing, the lower part of the plume is shifted upward as a result of cooling of the combustion products. With the gas-liquid jet moving upward, the lower boundary of the beginning of the burning of the torch rises continuously. In this case, as the burning part of the torch moves away from the mouth of the fountain, the burning part separates from the non-burning part, and then, since the combustion products from above have a lower specific gravity and the gas-liquid stream from the installation is easier to carry heated combustion products than cold components the fountain located under the stream, the axes of the burning part of the fountain will shift relative to its non-burning part, i.e., the flame will be removed from the directional zone of the fountain.

 The proposed device for extinguishing fires contains a self-propelled chassis 1, a platform 2 rotatable in a horizontal plane, a gas turbine engine 3 with a nozzle mounted in the housing 4 with the formation of an annular gap 5 between the engine with the nozzle and the housing, necessary for ejecting a directed air flow cooling the engine from the outside, and to increase the flow rate of the working fluid of the gas-liquid jet by mixing the ejected air, the engine position control system, consisting of a mounting frame 6, is articulated nodes 7 and 8 connected respectively to the platform 2 and the housing 4, mechanical or electrical drives for moving the engine, made in this case in the form of two hydraulic cylinders 9 located on the sides of the engine housing, hinged nodes 10 and 11 mounted respectively on the platform and mounting frame, and two located on the sides of the housing 4 of the engine of the hydraulic cylinders 12, hinged nodes 13 and 14 mounted respectively between the mounting frame 6 and the housing 4, the engine power system, including fuel tanks 15, interconnected, for example, through non-return valves 16, while the fuel flows from the first (in the direction of pumping) tank to the next one under the influence of air, a fuel pipe 17, through which fuel is supplied by a fuel pump-regulator 18 to the combustion chambers 19, engine 3, system remote control 21 with buttons 22 and setpoints 23 engine operating modes, power lines 24 connected to electronic blocks 25 for regulating engine modes 3, servo-mechanisms for executing electronic commands located in the pump controller 18 (n FIG. 6, 7 are not shown).

 The device comprises a pump 26 for supplying a fire extinguishing liquid installed on an external pump station (not shown in FIGS. 6, 7), a suction pipe 27 of which is connected to a source of fire extinguishing liquid, and a falling pipe 28 through a receiving pipe 29 is connected by a flexible pipe 30 to distributing manifolds 31 extinguishing fluid with nozzles-nozzles 32 located in the region of the nozzle of the engine so that the jet of extinguishing fluid is directed into the gas stream flowing from the nozzle.

 To simplify the layout, the housing 4 for installing the engine is made in the form of two coaxially arranged annular shells, between which are located the fuel tanks 15, fuel lines 17 and electronic units 25 of the engine operating mode control system.

 Management of engine operating modes is carried out either by the crew from the remote control 20 from the cab of the vehicle on which the engine 3 is installed, or remotely from the remote control 21.

 Installation works as follows.

 After occupying a position convenient for suppressing a fire, the engine 3 is started by pressing the button 22, and the engine is automatically displayed on low gas. The fuel supplied through pipelines 17 from the tanks 15 provides power to the engine, and dosing of its supply in various modes is carried out by commands from the mode dial 23, which controls the electronic units 25 and then through the servo drives (not shown in Fig. 6, 7) with a regulator pump eighteen.

 The engine 3 and the exhaust gas flowing out of the engine nozzle by turning the platform 2 in the horizontal (at the command of the operator) are oriented to the burning well.

 Then, with the help of hydraulic cylinders 9 or 12 and the platform turning mechanism, the housing 4 with the engine is oriented in vertical and horizontal planes so that the exhaust gas stream is directed under the flame base, and the lower boundary of the gas-liquid jet should be lower than the burning part of the fountain.

 After that, the engine 3 is switched to high traction mode and using the pump 26 of the external pumping station, the extinguishing fluid is supplied to the manifolds 31.

 After the necessary exposure of the gas-liquid flow in a position oriented under the base of the flame, the engine begins to move upward at a certain speed.

 Moreover, if the longitudinal axis of the engine was lower than the horizontal plane, using the hydraulic cylinders 9, orient the engine so that its longitudinal axis occupies a horizontal position, and then extend the hydraulic cylinders 12, connected by nodes 13 and 14, respectively, with the mounting frame and the motor housing 4, with this, the motor housing 4 rotates relative to the hinge assemblies 8 on the motor housing and moves up. At the same time, the gas-liquid jet moves upward, raising the flame of the torch, cutting it off from the fountain, removing the flame from the directional zone of the fountain and breaking the flame into separate foci until they completely die out.

 When extinguishing an inclined fountain, simultaneously with the engine moving upwards at an angle α, the platform is rotated in a horizontal plane by an angle β to ensure the gas-liquid jet moves along the axis of the inclined fountain.

 At the end of the fire extinguishing, the extinguishing liquid is turned off by means of the pump 26, by pressing the button 22 the engine 3 is turned off by means of the cylinders 12, the engine 3 is lowered into a horizontal position and the supply line 28 of the extinguishing liquid is disconnected from the inlet fitting.

 Removing the source of flame from the zone of directional action of the fountain increases the efficiency of extinguishing the fire, reduces the possibility of re-reward, reduces the duration of the fire.

Claims (2)

 1. The method of extinguishing fires of fountains of gas, oil and gas-oil wells, which consists in supplying a gas-liquid jet below the burning part of the fountain, characterized in that the gas-liquid stream is held below the burning part of the fountain until the flame breaks off, and then move up the axis of the fountain until the flame is removed from the zone directional action of the fountain.  2. Installation for extinguishing fires of fountains of gas, oil and gas-oil wells, comprising a gas turbine engine with a nozzle mounted on a rotary platform and having vertical displacement drives, power supply systems and control of engine operating modes, fire extinguishing fluid manifolds, characterized in that the engine is installed in the housing with the formation of a longitudinal gap between them, while the housing is made in the form of two coaxial shells, between which are located the power supply and control systems s engine.

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