RU2334532C2 - Method of protection of reservoirs with highly inflammable and ignitable liquids against explosion and in case of fire, device for its implementation - Google Patents

Abstract

FIELD: blasting operations.

SUBSTANCE: method consists in the fact that from inlet unit from the top at least two horizontal jets of fire-extinguishing substance - foam of low multiplicity - on internal wall of reservoir. Jets are supplied along reservoir wall to one side or simultaneously clockwise and counterclockwise, so that axes of jets do not cross, at that fire-extinguishing substance is supplied with pressure that provides formation of ring from fire-extinguishing substance on reservoir wall. As fire-extinguishing substance foam of low multiplicity or water is used, and in addition to them fire-extinguishing powder, inertial gas, water steam are used; at that one or several types of fire-extinguishing substances are simultaneously supplied into reservoir. Method is implemented with the help of device with appropriate inlet unit of fire-extinguishing substance, with outlet into reservoir at one end and cover on the other, and one or more nozzles for supply of fire-extinguishing substances. Inlet unit is arranged in the form of prism with isosceles trapezoid on the basis, angle of incline of prism lateral facets, on which nozzles are fixed, is selected based on condition of jets direction along reservoir wall. Inlet unit is made from material with strength characteristics that exceed strength characteristics of reservoir top belt, and reservoir roof, cover of inlet unit and its fastening to the unit are made of material with destruction characteristics that are less than destruction characteristics of inlet unit walls and reservoir top belt.

EFFECT: increase of efficiency.

8 cl, 8 dwg

Description

The invention relates to the field of fire fighting, and in particular to methods of protection against explosion and fire of metal tanks with flammable and combustible liquids with or without floating roofs, mainly vertical, as well as devices for their implementation, and can be used in oil, chemical, food and other industries.

A known method of extinguishing a fire in tanks with a floating roof (RF patent No. 1248613 from 08/08/86), which consists in feeding the extinguishing powder from above around the entire circumference of the tank with fan-shaped jets directed downward at a certain angle to the horizontal plane. When the powder is ejected from the nozzles, a rotating gas-powder flow is formed in the annular gap, which ensures uniform powder deposition throughout the protected area.

The disadvantage of this method is that it does not provide protection for the tank in case of destruction and flooding of the roof. The method is ineffective when extinguishing fires in tanks without a floating roof and cannot be used in tanks that are not equipped with stationary irrigation rings of its walls.

A device for extinguishing a fire in a metal tank (AS No. 1780772 from 12/15/92) containing a supply unit of a fire extinguishing substance with nozzles located in the central part of the site is known. The supply unit additionally contains a cumulative charge with a detonator, switches installed on the perimeter of the unit, spring-loaded electromagnets, probes installed to interact with the tank wall.

The disadvantages of the device are the low efficiency of protecting the tank from destruction, because cooling the walls of the tank and extinguishing the fire is carried out locally - in the places of installation of the device.

Closest to the proposed method is a method of extinguishing a fire in tanks, in which the foam is fed into the tank from above. The foam is supplied in the form of at least two flat fan-shaped jets: one of them is fed to a combustible liquid in the tank, and the other to the inner wall of the tank (RF patent No. 2232041 from 07/10/04).

A feature that is common with the proposed method is the supply of at least 2 jets of extinguishing agent — foam of low multiplicity — from the input node from above to the inner wall of the tank.

The disadvantage of this method is the low security of the free wall of the tank from destruction, because cooling the walls of the tank and extinguishing the fire is carried out locally - in the places where the foam chambers are installed.

A device is known for extinguishing a combustible liquid in a tank (RF patent No. 2232041 of 07/10/04). The device consists of a low-foam generator and a foam tank. The foam generator is made in the form of a housing with a nozzle for supplying a foaming agent solution to the housing and with an opening for supplying air to the housing. The nozzle is multi-jet. In the case of the foam generator there is a mixing chamber, the entrance of which is installed opposite the nozzle, and the outlet is connected to a foam container having an exit for foam into the reservoir in the form of at least two slit-like openings with the possibility of supplying a flat fan-shaped jet with one of them to a combustible liquid in tank, and the other on the inner wall of the tank. Between the exit for foam from the foam tank into the tank and the mixing chamber there is a sealing membrane made with the possibility of destruction during fire fighting.

Signs common with the proposed device is an extinguishing agent input unit with an outlet to the reservoir at one end and with a lid at the other end and nozzles for supplying the extinguishing agent.

The disadvantage of this device is the unreliability of the design, because If the vapor-air mixture explodes in the tank, the foam tank will be destroyed, which will lead to a significant increase in the time interval between the start of the fire and the elimination of the fire. There is a danger of destruction of the tank and, as a result, the spill of combustible products over large areas, their fire, as well as a high probability of fire in neighboring tanks.

The known method and device protect the tank from destruction only if the fire extinguishing time does not exceed 3-5 minutes (the time of deformation of the free walls and other load-bearing elements of the tank), they do not protect the tank from destruction in the event of an explosion. In addition, the known device is not protected from overpressure of the blast wave.

The objective of the invention is to protect the tank from destruction during an explosion, to extinguish a fire before the time of loss of the bearing capacity of its free sides or for a calculated, economically feasible period of time determined in accordance with GOST 12.01.04-95, SNiP 2.11.03-93 at the technical stage -economic justification of the project.

The technical result that can be obtained is protection against a blast wave of nozzles for supplying extinguishing agents, cooling the wall of the tank around its entire circumference, and creating an environment in the chemical reaction zone of combustion that does not support combustion.

The problem was solved due to the fact that in the known method of extinguishing a fire in tanks with flammable and combustible liquids by supplying at least two jets of extinguishing agent — foam of low multiplicity — from the input unit from above to the inner wall of the tank, extinguishing agent is fed by horizontal jets along the wall reservoir in one direction or simultaneously clockwise and counterclockwise so that the axis of the jets do not intersect. The extinguishing agent is supplied with a pressure that ensures the formation of a ring of extinguishing agent on the tank wall. As a fire extinguishing agent, foam of low multiplicity or water is used, and in addition to them, depending on the type of liquids stored in the tank, fire extinguishing powder, inert gas, water vapor can be used. Moreover, one or more types of extinguishing agents are simultaneously supplied to the tank.

The features of the proposed method, distinctive from the features of the prototype method: the fire extinguishing agent is fed in horizontal jets along the wall of the tank in one direction or at the same time clockwise and counterclockwise so that the jets do not intersect, the fire extinguishing agent is fed with a pressure that forms a ring on the tank wall from a fire extinguishing agent, and as a fire extinguishing agent, foam of low multiplicity or water is used; in addition, fire extinguishing powder, inert gas, water vapor are used as the extinguishing agent; moreover, one or more types of extinguishing agents are simultaneously supplied to the tank.

The problem was also solved due to the fact that the known device for extinguishing a fire in a tank containing an extinguishing agent input unit with an outlet to the tank at one end and with a lid at the other and nozzles for supplying a fire extinguishing agent, additionally contains one or more nozzles for supplying a fire extinguisher substances. The nozzles are mounted horizontally on one or two sides of the input node at an angle selected from the directivity of the extinguishing agent jets along the tank wall, and the axis of the nozzles fixed on opposite sides of the input node are located in parallel horizontal planes. As nozzles for supplying extinguishing agents, foam generators, nozzles for supplying foam, water, extinguishing powder, inert gas, water vapor are used. Foam generators and foam nozzles are housed in a housing with a hole for air intake. The device also further comprises one or more input nodes. The input unit is made in the form of a prism with an isosceles trapezoid at the base, the angle of inclination of the side faces of the prism, on which the nozzles are fixed, is selected from the condition of the direction of the jets along the tank wall. The input node is made of a material with strength characteristics exceeding the strength characteristics of the upper belt of the tank, and the roof of the tank, the cover of the input node and its fastening to the node are made of material with destructive characteristics below the destructive characteristics of the walls of the input node and the upper belt of the tank.

The features of the proposed device, distinctive from the features of the device according to the prototype, the device further comprises one or more nozzles for supplying extinguishing agents, mounted horizontally on one or two sides of the input node at an angle selected from the direction of the streams of extinguishing substances along the tank wall; the axis of the nozzles mounted on opposite sides of the input node are located in parallel horizontal planes; as nozzles for supplying extinguishing agents, foam generators, nozzles for supplying foam, water, extinguishing powder, inert gas, water vapor are used; foam generators and foam nozzles are placed in a housing with a hole for air intake; the device also further comprises one or more input nodes; the input node is made in the form of a prism with an isosceles trapezoid at the base, the angle of inclination of the side faces of the prism on which the nozzles are fixed is selected from the condition of the direction of the jets along the tank wall; the input node is made of material with strength characteristics exceeding the strength characteristics of the upper belt of the tank, and the roof of the tank, the cover of the input node and its fastening to the node are made of material with destructive characteristics below the destructive characteristics of the walls of the input node and the upper belt of the tank.

The direction of at least two horizontal jets of extinguishing agents along the wall of the tank in one direction or at the same time clockwise and counterclockwise so that the axis of the jets do not intersect in the horizontal plane, with a pressure that ensures the formation of a ring of fire extinguishing substance on the tank wall, is the most effective use of jets for the purpose of protecting the tank from destruction during explosion and extinguishing the combustible liquid contained in it. When foam is supplied to the tank as a fire extinguishing agent, it flows down the tank wall, cooling it, and is distributed over the entire surface of the combustible liquid, forming a foam layer and a film that reflect the radiant energy of the flame and isolate the flow of combustible liquid vapor into the combustion zone. When water is supplied, the walls of the tank are cooled and the water-soluble flammable liquids are diluted to a concentration that does not support combustion. When powder, inert gases, water vapor are supplied in the zone of the chemical reaction of combustion of flammable liquids, an environment that does not support combustion is created. To extinguish a fire, low foam or water is always supplied. To ensure the estimated time to extinguish the fire, additional extinguishing agents are supplied to the tank, which are selected at the design stage based on their fire extinguishing capabilities and economic feasibility, as well as taking into account the special design of the tanks and other characteristics of the protected objects and their deployment sites. Thus, the cooling of the tank wall along its entire circumference and the creation of an environment that does not support combustion in the zone of the chemical reaction of combustion is ensured.

The execution of more than one nozzle in the device reduces the time it takes to start cooling the tank and extinguishing the combustible liquid in it.

The implementation of the input nodes of the device more than one also provides a reduction in the start time of cooling the tank and extinguishing the combustible liquid in it, as well as improving the reliability of the quenching in case of partial deformation of the tank walls.

The implementation of the input node of the material with strength characteristics exceeding the strength characteristics of the upper zone of the tank; the manufacture of the tank roof, the cover of the input unit and its attachment to the unit from a material with destructive characteristics below the destructive characteristics of the walls of the input unit and the upper belt of the tank ensures their free discharge at the moment of explosion, as a result of which excess pressure is reduced in the tank. This prevents possible damage to the supporting structures of the tank and protects against the blast wave nozzles supply fire extinguishing substances.

Figure 1 presents the proposed device with one foam generator and 3 nozzles, figa, b, c - examples of layout of input nodes on the tank, figa, b, c, d - examples of layouts of nozzles on node input and distribution of fire extinguishing substances in sectors of the tank circumference.

The device consists of the body of the input unit 1, cover 2, nozzles 3 for supplying extinguishing agents, mounted on the input unit 1, and inlet pipes 4. The foam generators and foam nozzles 5 are protected from radiant heat exchange by the housing 6 with an opening 7 for suctioning air to the foam generator or foam nozzle. Depending on the specified parameters of the fire extinguishing time and the reliability of the fire protection system, more than one nozzle 3 for supplying a fire extinguishing substance can be fixed on one input unit 1 (Fig. 3a, b, c, d). In this case, the axis of the nozzles 3, mounted on opposite sides of the input node 1, are located in parallel horizontal planes, eliminating the collision of oncoming jets. The housing of the input node 1 of the device can be made of any shape. The nozzles 3 should be fixed on it at such an angle to ensure the direction of the jet of foam along the wall of the tank. More technologically advanced is the implementation of the housing of the input unit 1 in the form of a prism with an isosceles trapezoid at the base. The angle of inclination of the side faces of the prism, on which the nozzles are fixed, is selected from the condition of the direction of the jets along the tank wall. The nozzles 3 in this case are attached to the side faces of the input unit 1 at a right angle. The housing of the input unit 1 is made of welded sheet steel with a thickness of 5-6 mm and is attached to the tank body with bolts with a diameter of at least 14 mm through a gasket of non-combustible material. The cover 2 of the input unit 1 and its fastening to the unit should be made of material that ensures its discharge at the time of the explosion (from a material less durable than the material of the housing of the input unit). For example, the cover 2 can be made of sheet steel 1.5 mm thick and attached to the housing of the input unit 1 by screws through the gasket (to ensure tightness). The lid 2 isolates the vapor-air medium of the tank from the external environment, and in the explosion acts as an excess valve, protects the tank from destruction by venting excess pressure. The device is equipped with a visor (not shown) to reflect radiant energy in case of fire and protect the device from external precipitation. Foam generators, foam nozzles and nozzles for supplying other extinguishing agents are additionally protected from radiant heat exchange by a heat-reflecting screen (not shown) installed above the node for introducing extinguishing agents into the tank.

The method of extinguishing a fire using the proposed device is as follows.

The fire in the tank begins, as a rule, with a local explosion of the vapor-air mixture. At the time of the explosion, the cover 2 of the input unit 1 flies off or undermines the roof of the tank, because they are made of less durable material than the upper belt of the tank and the input unit 1 of fire extinguishing agents (the destruction of the input unit is possible only after the destruction of the free side of the tank to which the latter is attached). As a result of this, overpressure is reduced in the tank, which prevents possible damage to the supporting structures of the tank, input unit and nozzles for supplying extinguishing agents to the tank.

If a fire occurs from its detection systems, a command is sent to the control panels of the fire extinguishing installation of the tanks and the fire department of the facility, settlement. At the same time, from fire extinguishing installations or fire trucks to the nozzles 3 through the inlet pipes 4 a fire extinguishing substance is supplied - a foaming agent solution, water, powder, inert gas, water vapor. One or more types of extinguishing agents may be supplied. Foam or water is always supplied. In addition to them, fire extinguishing powder, inert gas, water vapor can be supplied to achieve the estimated time to extinguish the fire and reduce the risk of harm, taking into account the predicted, adequate to the conditions of the danger of development of emergencies. To extinguish a fire, it is preferable to use foam of low multiplicity, because it contributes to the most efficient cooling of the walls of the tank and the uniform formation of a fire extinguishing film on the surface of a combustible liquid. The use of foam of high multiplicity will lead to an increase in the number of devices and nozzles.

When applying extinguishing agents, nozzles 3 form jets that are directed horizontally along the wall of the tank. The jets can be directed simultaneously clockwise and counterclockwise or only in one direction. Since the axis of the nozzles 3 located on opposite sides of the input unit 1 are in parallel horizontal planes, the oncoming jets of extinguishing agents do not intersect.

The extinguishing agent is supplied with stable long-range jets, providing the creation of a "massive flow" around the entire circumference of the tank.

Each nozzle (or a stream of extinguishing agent) has its own cooling and / or quenching section (circle sector, mirror area, volume of the combustion zone of a combustible liquid) (figa, b, c, d). The number of sections (sectors) of cooling and (or) extinguishing (number of nozzles) is determined by the danger of a threat of harm by a combustible liquid, the characteristics of nozzles (flow rate and range of the jet), tank sizes and the extinguishing time defined by the norms or contract.

When placing two nozzles on the input node (with one input node on the tank) and one nozzle on the input node (with 2 input nodes), each jet has a cooling section equal to at least half the circumference (figa, b). When placing two foam generators on the input node (with 2 input nodes) - at least a quarter of the circumference of the tank (pigv). When you place four foam generators on the input node (two on each side) (with 2 input nodes) - each jet has a cooling section equal to at least 1/4 of the tank circumference (Fig. 3d).

The required number of input nodes installed on one tank and nozzles for supplying extinguishing agents installed on one input node are determined by the calculation method at the stage of the project feasibility study based on the estimated economically justified fire extinguishing time in accordance with GOST 12.1.004, SNiP 2.11 .03-93, the volume of the tank and the intensity of the supply of extinguishing agents for cooling and extinguishing.

Example. In accordance with SNiP 2.11.03-93, the standard fire extinguishing time is 10 minutes. To extinguish fuel oil in a tank of 10 thousand m ³ during the standard time with the standard intensity of cooling the tank, it is necessary to install two input units, with the installation of 2 foam generators with nozzles of the Master Stream MI-NJ type on each. To obtain the foam, a solution of a film-forming foaming agent of the UNISERAL AF 15-01 type is supplied at a pressure of 5 atm. The range of the jet created by the nozzle is more than 40 m. To reduce the time of extinguishing the tank in the event of a fire, you can expand the list of fire extinguishing agents used, increase the number of input nodes, the number of generators, nozzles, flow parameters, delivery range and others. The proposed method of fire extinguishing provides a high degree of reliability of the protection of the tank from destruction due to:

- reduction of excess pressure in the tank during an explosion;

- simultaneous cooling of the tank wall along its entire circumference and extinguishing a combustible liquid;

- cooling and extinguishing the fire for the estimated predetermined time with a given reliability.

The proposed method and device will allow:

- to prevent the risk of harm to the population, the environment, animals and plants in the event of a fire, as defined by regulations or by contract;

- reduce the cost of enterprises to eliminate the consequences of the fire;

- reduce the recovery time of tanks for their further use;

- prevent the development of emergency situations;

- provide extinguishing of any flammable and combustible liquids in tanks of all sizes, with and without thermal insulation;

- reduce the number of fire fighting equipment used to extinguish the fire, and the number of personnel of emergency rescue units and services;

- reduce the risks and duration of the damaging factors on the personnel of emergency services, supporting tank structures and the environment.

Claims (8)

1. A method of protecting tanks with flammable and combustible liquids from explosion and fire by supplying at least two jets of extinguishing agent from the injection unit from above to the inner wall of the tank — low foam, characterized in that the extinguishing agent is fed by horizontal jets along the tank wall into one side or simultaneously clockwise and counterclockwise, so that the axis of the jets do not intersect, while the extinguishing agent is supplied with a pressure that provides a reserve on the wall a ring of fire extinguishing agent, and as a fire extinguishing agent use foam of low multiplicity or water. 2. The method according to claim 1, characterized in that as the extinguishing agent additionally use an extinguishing powder, an inert gas, water vapor. 3. The method according to claim 1, characterized in that the tank serves one or several types of fire extinguishing substances. 4. A device for protecting reservoirs with flammable and combustible liquids from explosion and fire, comprising an extinguishing agent inlet with an outlet to the reservoir at one end and a lid at the other, and nozzles for supplying a fire extinguishing agent, characterized in that it further comprises one or more nozzles for supplying extinguishing agents, horizontally mounted on one or two sides of the input node at an angle selected from the condition of the direction of the jets of extinguishing agents along the tank wall; the axis of the nozzles mounted on opposite sides of the input node are located in parallel horizontal planes; the input node is made of material with strength characteristics exceeding the strength characteristics of the upper belt of the tank, and the roof of the tank, the cover of the input node and its fastening to the node are made of material with destructive characteristics below the destructive characteristics of the walls of the input node and the upper belt of the tank. 5. The device according to claim 4, characterized in that foam nozzles, foam nozzles, water, fire extinguishing powder, inert gas, water vapor are used as nozzles for supplying extinguishing agents. 6. The device according to claim 5, characterized in that the foam generators and foam nozzles are placed in the housing with an opening for air intake. 7. The device according to claim 4, characterized in that it further comprises one or more input nodes. 8. The device according to claim 4, characterized in that the input node is made in the form of a prism with an isosceles trapezoid at the base, the angle of inclination of the side faces of the prism on which the nozzles are mounted is selected from the condition of the direction of the jets along the tank wall.

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