EP1075316B1 - Method and high-capacity apparatus for producing fire fighting foam and foam expanding spreading device - Google Patents

Method and high-capacity apparatus for producing fire fighting foam and foam expanding spreading device Download PDF

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Publication number
EP1075316B1
EP1075316B1 EP99915962A EP99915962A EP1075316B1 EP 1075316 B1 EP1075316 B1 EP 1075316B1 EP 99915962 A EP99915962 A EP 99915962A EP 99915962 A EP99915962 A EP 99915962A EP 1075316 B1 EP1075316 B1 EP 1075316B1
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EP
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Prior art keywords
foam
pressure
spreading device
mixer
fire fighting
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EP99915962A
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German (de)
French (fr)
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EP1075316A1 (en
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Istvan Szöcs
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    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C5/00Making of fire-extinguishing materials immediately before use
    • A62C5/02Making of fire-extinguishing materials immediately before use of foam
    • AHUMAN NECESSITIES
    • A62LIFE-SAVING; FIRE-FIGHTING
    • A62CFIRE-FIGHTING
    • A62C3/00Fire prevention, containment or extinguishing specially adapted for particular objects or places
    • A62C3/06Fire prevention, containment or extinguishing specially adapted for particular objects or places of highly inflammable material, e.g. light metals, petroleum products
    • A62C3/065Fire prevention, containment or extinguishing specially adapted for particular objects or places of highly inflammable material, e.g. light metals, petroleum products for containers filled with inflammable liquids

Definitions

  • the invention relates to a method and a high-capacity apparatus for producing fire fighting foam which method and apparatus able to produce quickly a bulk of fire fighting foam and to discharge the produced fire fighting foam onto a large surface in a layer of uniform thickness, which method and apparatus can particularly be used as fire extinguisher of tanks containing liquid fluids especially liquid hydrocarbons and to extinguish fire thereof.
  • composition consisting of foaming agent, water and gaseous medium.
  • air-foams are generally used to extinguish fire of storage tanks containing inflammable liquids, especially liquid hydrocarbons.
  • foam fire extinguishing devices used art storage tanks or storage tank farms containing inflammable liquids are fixed or semi-fixed fire extinguishers.
  • Semi-fixed fire extinguishers comprise pipelines or a pipeline-network conveying the foaming agent solution from the inlet place to the storage tanks, one or several foam-generating heads, foam supply pipeline(s) and foam introducing device(s). Separate pumps (firefighting trucks) are necessary to ensure the streaming of the foaming agent solution.
  • the foaming agent used for producing the fire fighting foam is taken to the spot after the fire has broken out, the solution can be prepared and the fire fighting foam can be produced only afterwards.
  • the fixed fire extinguishers have in addition a solution supply centre, a so called extinguishing centre as well.
  • the extinguishing centre is equipped with a ready-to-use foaming agent storing tank, water supply connection taps to gain water or a water-reservoir of the required capacity, proportioners to mix the foaming agent and pumps to establish the required pressure, and these pumps are connected to the pipeline of the foaming agent solution with appropriate valves inserted.
  • the most important disadvantage is that there is a long period of time between the inflammation and the begin of extinction of the fire. Usually it takes about 10 minutes to 2 - 3 hours from the detection of the fire till starting to extinguish it to complete the fire extinguisher system, produce the foaming agent solution and then the fire fighting foam from the foaming agent available on the spot or taken to the spot just that time, and to fill and activate the system to start producing the foam. Further, after the extinguishing of the fire has been started, it also takes significant time to produce enough foam to form a foam blanket of the required thickness and to spread this amount of foam in uniform thickness on the surface of the burning liquid.
  • the damage caused by the fire is permanently increasing regarding both the material destroyed and the growing damage done to the otherwise valuable tank, while the environment is also being permanently polluted.
  • the surface of a tank of 30000 m 3 is about 2000 m 2
  • the burping-rate constant of petrol is 7 mm/min, so approximately 14 m 3 petrol is burnt in the fire every minute.
  • the released heat also endangers the surrounding establishments, and if it is a tank farm, the other tanks are also considerably endangered.
  • the limit of foam production is determined by the upper limit of the transporting capacity of the device generating the flow of the solution, e.g. the capacity of the pump.
  • a further limit is set by the narrow cross section of the nozzle used for foam production.
  • a further disadvantage of the method is the varying quality of the foam, as the quality of the fire fighting foam produced as described above is varying depending on the actual flow conditions, reducing the effectiveness of extinguishing the fire.
  • a further disadvantage of the above described fire extinguishers in connection with the former problems is that the foam let to the surface of the liquid is uneven.
  • the known method of letting the foam to the surface at certain places along the circumference of the tank or discharging the foam from the foam box does not form a foam blanket of uniform thickness, and it takes long time till the foam emitted forms a foam blanket entirely covering the surface of the liquid.
  • the part of the surface not covered with foam keeps burning during this long time and the foam may be spoiled at the edge of the foam blanket, therefore the process of extinguishing drags out.
  • the fundamental consideration of the invention is that the disadvantages described above can be attributed to the simultaneity of generating and applying the foam.
  • the basic idea of the invention is that if the production and application of the fire fighting foam is divided into two separate actions, that is, if the generation and the conveyance of the fire fighting foam is separated in a way that the generation of the foam is independent from its flowing, and we store the energy necessary for the conveyance of the foam together with the essentially ready foam in the form of pressure energy, all these make it possible to produce foam of uniform quality that can be better influenced than in case of the known methods, and to adjust the quantity emitted, which makes the extinction of the fire quick and economical.
  • foam can be emitted in a smooth manner within a short time with a device where the foam is emitted not at a single point, but along a longer section, preferably along the circumference of the surface of the liquid or the sidewall of the tank etc. at the same time, the device being able to emit the same amount and quality of foam at any point of emission along the section.
  • a composition is prepared consisting of foaming agent, water and gaseous medium.
  • the essence of the method is that the composition is prepared via dissolving or emulsifying the components in one another under overpressure, the composition prepared this way is stored under overpressure at the required place for the required period of time, transported if necessary while the overpressure is maintained, and it is expanded via decompressing it on the spot and at the time of application.
  • the water-soluble gaseous medium can preferably be carbon-dioxide.
  • the overpressure is chosen to be at least 10 bar, preferably more than 15 bar. Dissolution is made at ambiant temperature. It is quite advantageous to complete the solution in a way that liquid carbon-dioxide is absorbed in water.
  • water-insoluble gases e.g. halogenated hydrocarbons
  • the gaseous medium is to be dispersed in the foaming agent or the aqueous solution thereof at a pressure of 10 - 40 bar, preferably above 16 bar.
  • known emulsifying agents indifferent against the foaming agent can be used.
  • the ready-to-use fire fighting foam is generated when the composition is released to the atmospheric pressure, by expansion of the gaseous medium dissolved or dispersed in the composition, via certain inflation of the generated bubbles as a result of the decrease of overpressure.
  • the composition under overpressure is let out to atmospheric pressure preferably at the place of application, above or below the burning surface of the liquid, therefore the fire fighting foam is immediately used on the spot when it takes its final form, and the apparatus producing the foam can be considered as a fixed fire extinguisher.
  • the essence of the apparatus according to the invention suitable or producing fire fighting foam being a solution for the problem is that it comprises a high-pressure foam source, a foam expanding spreading device and a pressure resistant pipeline connecting the high-pressure foam source with the foam expanding spreading device.
  • a preferable, automatic embodiment of the apparatus comprises a valve inserted in the pressure resistant pipeline, preferably a remote controlled valve.
  • the embodiments of the apparatus of the invention can be built up to different extent, depending on the demand.
  • the high-pressure foam source of the apparatus has a high-pressure tank containing a composition, under overpresure, consisting of foaming agent, water and gaseous medium and the pressure resistant pipeline is connected to the opening of the tank with a main valve inserted.
  • the high-pressure foam source of the apparatus comprises a pressure resistant high-pressure tank containing water with foam generating gas absorbed in it under overpressure, a foaming agent container and a mixer, the pressure resistant high-pressure tank is connected to one inlet of the mixer with a stop-valve inserted, and the foaming agent container is connected to the other inlet of the mixer, while the outlet of the mixer is connected to the pressure resistant pipeline directly or with a second valve inserted.
  • the high-pressure foam source of the apparatus comprises an absorbing vessel and a liquid or gaseous foam generating gas container connected to one inlet of the absorbing vessel directly or with a pressure controller inserted, a mixer with a foaming agent container connected to one of its inlets, the other inlet of the absorbing vessel is fashioned in a way that it can be connected to a water supply, the outlet of the absorbing vessel is connected to the other inlet of the mixer, and the outlet of the mixer is connected to the pressure resistant pipeline.
  • the high-pressure foam source of the apparatus comprises an absorbing vessel and a liquid or gaseous foam generating gas container connected to one inlet of the absorbing vessel directly or with a pressure controller inserted, a mixer with a foaming agent container connected to one of its inlets, the other inlet of the mixer is fashioned in a way that it can be connected to a water supply, the outlet of the mixer is connected to the other inlet of the absorbing vessel, and the outlet of the absorbing vessel is connected to the pressure resistant pipeline.
  • the pressure resistant pipeline of the apparatus branches and a disconnecting valve is inserted in each branch of the pipeline.
  • the apparatus comprises a foam expanding spreading device to be used for discharging fire fighting foam onto a large surface in a layer of uniform thickness.
  • the essence of the first version of the device to be primarily used at applications of lower output demand is, that it comprises an admission opening and a discharge mouth, arranged on a tubular distributing body suitably forming a closed loop, preferably of torus shape, the discharge mouth, suitably a slit or a set of holes, is situated on the nappe of the tubular distributing body along its length, preferably along its generating line.
  • the device is a longer one, it is an advantageous form where the discharge mouth, suitably a slit or a set of holes, is formed in a way that its size per unit length of the tubular distributing body. is growing according to the distance from the admission opening.
  • the essence of the second version of the foam expanding spreading device to be used for discharging fire fighting foam onto a large surface in a layer of uniform thickness, to be primarily used at applications of higher output demand, is that it comprises an admission opening and a discharge mouth, a tubular distributing body suitably forming a closed loop, preferably of torus shape, a suitably tubular high-pressure receiving chamber preferably forming a closed loop, preferably of torus shape, mostly arranged in a way that the torus shaped distributing body is concentrically surrounded by the torus shaped high-pressure receiving chamber, the distributing body is connected to the high-pressure receiving chamber with hydraulically balanced feeding, and the discharge mouth, suitably a slit or a set of holes, is situated on the nappe of the tubular distributing body along its length, preferably along its generating line, and the admission opening is the admission opening of the high-pressure receiving chamber.
  • the main advantage of the method according to the invention is that the fire fighting foam is generated when the composition of the foaming substance is released from the apparatus to the space of atmospheric pressure by expansion of the compressed gaseous medium in the composition, therefore the foam of the required quality is surely produced. It is a further advantage that the risk of failure is very low as there is no nozzle-like narrowing in the pipelines.
  • the tanks storing the composition with the gaseous medium absorbed in it are pressurised energy-storing devices, hence their operation usually does not depend on external factors, e.g. intermission of electric supply etc, and the set-up time before starting extinguishing is negligible.
  • a further significant advantage of the method and apparatus of the invention is that it is suitable for realising very high foam intensity. If we want to empty a tank filled with the required quantity of composition of 16, 25 or 40 bar operational pressure during a pre-determined period of time, knowing the length of the foam supply pipeline we can determine the required diameter of the pipeline. For example it takes 3 minutes to empty an experimental tank filled with 50 kg composition from 14 bar to atmospheric pressure through a 2" pipeline of 4 meter length, the time of extinguishing is approximately the same, and the foam blanket laid on the approximately 10 m 2 surface of the liquid is 10 cm thick, resulting in successful extinction of the fire.
  • a further advantage of the method and apparatus according to the invention is that it supplies foam of uniform quality.
  • the ratio of all the components of the foam is adjusted when completing the composition in advance, the ratio of the volume of the bubbles and the quantity of the foaming agent solution, that is, the spreading rate of the foam is no longer dependent on external parameters. It also implied the possibility that in course of its operation an apparatus can continuously supply foam of quality chosen as optimal for the given application.
  • the apparatus comprising the foam expanding spreading device that it is suitably situated ground the surface of the liquid, and in course of its operation the foam emitted is ring-shaped, and this ring is closing more and more while extinguishing the fire, and finally covers the entire surface of the liquid. It is a further extra advantage of the apparatus comprising the foam expanding spreading device that it is suitable for letting the foam either to the surface or under the surface of the liquid.
  • the apparatus shown in figure 1 comprises a high-pressure foam source (10) which has a pressure resistant tank (12), there is a pipe stub established on the tank (12), (not indicated in the figure) so as to introduce water, foaming agent and gaseous medium.
  • a circulating pump can be connected to the appropriate pipe stubs of the tank (12) in a detachable way, which can be used for dispersing the components under pressure in the tank (12).
  • the tank (12) is an installed tank, a pressure resistant pipeline (40) is connected to its outlet which is the outlet of the foam source (10) and a remote controlled main valve (42) is inserted in the pipeline (40).
  • the valve (42) may be controlled by a sensor (49) situated in a storage tank (1) with the help of an appropriate control unit (50).
  • the end of the pipeline (40) is protruding into the inner space of the storage tank (1) containing the inflammable liquid, where it is connected to a foam expanding spreading device (60) situated inside the storage tank (1) above the surface of the liquid along the nappe of the storage tank (1).
  • the compressed foaming composition consisting of the foaming agent, water and the propellant gas is prepared in the tank (12) or the composition already prepared is filled in the tank (12). If necessary the mixing of the composition can be promoted using a mechanic mixer and the circulating pump. The composition is stored in this status until being used.
  • the foaming composition is let into the foam expanding spreading device (60) through the pipeline (40) by opening the valve (42), and the foaming composition is expanding when leaving the device (60).
  • the expanded foaming composition is the ready-to-use fire fighting foam itself, which is immediately let to the place of application.
  • the apparatus shown in figure 2 comprises a high-pressure foam source (10) having a high-pressure tank (15) containing the foam generating gas absorbed in water, a foaming agent container (17) and a mixer (30). Water and gaseous medium is let into the tank (15) mixed or separately through an appropriate pipe stub, and mixing can be promoted using a mechanic mixer and a circulating pump.
  • the outlet of the tank (15) is connected to one inlet of the proportional mixer (30) with a stop-valve (32) inserted, and the foaming agent container (17) is connected to the other inlet of the mixer (30).
  • the outlet of the mixer (30) which is the outlet of the high-pressure foam source (10) is connected to a foam expanding spreading device (60) by a pressure resistant pipeline (40).
  • This three-component composition containing the compressed propellant gas absorbed in it is let through the pipeline (40) and the ready fire fighting foam is generated via its expansion as described above.
  • the apparatus shown in figure 3 comprises a high-pressure foam source (10) having a water tank (20) connected to one inlet of an absorbing vessel (35) with a booster pump (22) inserted.
  • the outlet of a gas container (19) containing a compressed foam forming and propellant gas is connected to the other inlet of the absorbing vessel (35) with a pressure controller (37) inserted.
  • the outlet of the absorbing vessel (35) is connected to one of the inlets of a mixer (30), while the outlet of a foaming agent container (17) is connected to the other inlet of the mixer (30).
  • the outlet of the mixer (30) is connected to pressure resistant pipelines (40) leading to storage tanks containing inflammable liquids, where they are connected to foam expanding spreading devices, of which the figure shows only one foam expanding spreading device (60) situated in tank (1).
  • the pipeline (40) branches and a disconnecting valve (45, 46) is inserted in each branch of the pipeline.
  • water stored in the tank (20) is enriched with foam forming and propellant gas stored under overpressure in the container (19) in the absorbing vessel (35) and foaming agent concentrate is mixed to this compound in the mixer (30).
  • the three-component composition discharged from the mixer (30) is conveyed to the tank selected (e.g. 1) through the pipeline (40), through its branch determined by the open disconnecting valve (45, 46) of the pipeline (40), and the fire fighting foam is generated there via its expansion as described below.
  • FIG 4 shows an advantageous version of the foam expanding spreading device (60).
  • the foam expanding spreading device (60) has a tubular distributing body (63) forming a kind of ring adjusted to the shape of the storage tank to be protected, fitting close to the inner surface of the sidewall of the tank under the rim of it, and an admission opening (62) is formed on the branch neck (61) of the foam expanding spreading device (60).
  • the discharge month on the tubular distributing body (63) of the foam expanding spreading device (60) is formed as a slit (65) parallel to the axis of the tubular distributing body (63) in a way that the distance between the edges of the slit (65) is growing according to the distance from the admission opening (62).
  • the growing size of the slit is better seen in figure 5 , where a part of the foam expanding spreading device (60) is shown "straightened” for better understanding.
  • the cross section of the admission opening (62) and the slit (65) on the body (63) is conveniently the same.
  • Figure 6 shows the foam expanding spreading device (60) in section along the A-A plane indicated in figure 4 , the arrow shows the direction of outflow of the foam.
  • the foam expanding spreading device (60) producing a vertically downwards directed foam-fall can be suitably used in floating roof tanks, the foam flow is directed in the slit (63) between the floating roof and the sidewall of the tank.
  • the slit (65) of the device (60) is situated so as to produce foam-fall directed partly downwards and partly sideways, and it is particularly advantageous to apply it at tanks with open liquid surface.
  • the foam flowing in through the admission opening (62) is released through the slit (65).
  • the size of the slit (65) is growing according to the distance from the admission opening (62), so the amount of foam released at sections of the slit farther away from the admission opening (62) is the same as the amount of foam released at sections closer to the admission opening (62), as the pressure of the foam at sections of the slit closer to the admission opening is higher. Accordingly, it can be attained that the foam blanket released is of uniform thickness all along the slit (65). If it is a cylindrical tank, the surface of the liquid is covered in a concentric manner, therefore the surface is entirely covered within a short time.
  • Figure 8 shows the foam expanding spreading device (60) installed in a tank (1), the dimensions in the figure are not in proper proportion.
  • the position of the admission opening (62) can be clearly seen in the figure, and it is also clearly seen that the slit (65) acting as a discharge mouth is narrower at its end closer to the admission opening (62), and it is wider at its other end farther from the admission opening (62).
  • Figure 9 shows a further embodiment of the apparatus according to the invention. It comprises a high-pressure foam source (10) where a water tank (20) is connected to one inlet of a proportional mixer (30) with a pump (22) inserted, and a foaming agent container (17) is connected to the other inlet of the proportional mixer (30).
  • the outlet of the proportional mixer (30) is connected to one inlet of an absorbing vessel (35), and a foam generating gas container (19) is connected to the other inlet of the absorbing vessel (35) with a pressure controller (37) inserted.
  • the outlet of the absorbing vessel (35) is the outlet of the foam source (10), and it is connected to high-pressure pipeline (40) which branches at this example as well, and disconnecting valves (45, 46) are inserted in each branch.
  • the foam expanding spreading device (60) shown in figure 10 comprises a high-pressure receiving chamber (67) and a tubular distributing body (66).
  • the chamber (67) is connected to the tubular body (66) with hydraulically balanced feeding, at this embodiment it is attained via connecting members (71, 72 and 73) of choking effect between the chamber (67) and the distributing body (66), the chokes in the connecting members (71, 72 and 73) are shown in the figure in broken-out section of the connecting members (71, 72 and 73).
  • a slit (68) acting as a discharge mouth is made along the generating line of the essentially tubular distributing body (66), while the high-pressure receiving chamber (67) is connected to the pipeline (40) at the admission opening (69) of the chamber (67).
  • Figure 11 shows the foam expanding spreading device (60) shown in figure 10 , in section along the A-A plane indicated there.
  • the high pressure receiving chamber (67) and the distributing body (66) connected to it by the connecting member (73) of choking effect is clearly seen in the figure as well as the foam discharging slit (68) of the distributing body (66) along its generating line, and the admission opening (69) of the chamber (67).
  • the pressure drops at the members of choking effect, so it is the expanded ready fire fighting foam that gets into the inner space of the distributing body (66).
  • the longitudinal position of the distributing body (66) and the slit (68) ensures that the fire fighting foam is let to the place of application in the form of a blanket.
  • Fig. 12 shows an other version of the foam expanding spreading device to be used for discharging fire fighting foam onto a large surface liquid filled in storage tank.
  • the spreading device comprises a tubing (80) which extends over the centre of tank (90).
  • the tubing (80) has an admission end (81) which is able to join a pressure resistant pipeline, the other end has a discharge mouth having larges size than admission opening.
  • the discharge mouth is arranged in a position which is directed to the surface of liquid over and in the discharge mouth there are deflection plates (83) to spread foam uniformly in the whole discharge mouth.
  • an expansion tract (85) In the tubing (80) there is an expansion tract (85).

Abstract

Method for producing fire fighting foam using a composition is prepared consisting of foaming agent, water and gaseous medium. The composition is prepared via dissolving or emulsifying the components in one another under overpressure, the composition prepared this way is stored under overpressure at the required place for the required period of time, transported if necessary maintaining the overpressure, and it is expanded via decompressing it on the spot and at the time of application. The apparatus for producing the fire fighting foam comprises a high-pressure foam source (10), a foam expanding spreading device (60) and a pressure resistant pipeline (40) connecting the high-pressure foam source (10) with the foam expanding spreading device (60). A foam expanding spreading device comprises an admission opening and a discharge mouth, a tubular distributing body (63) suitably forming a closed loop of tubes, preferably of torus shape, the discharge mouth, suitably a slit (65) or a set of holes, is situated on the nappe of the tube along its length, preferably along its generating line.

Description

  • The invention relates to a method and a high-capacity apparatus for producing fire fighting foam which method and apparatus able to produce quickly a bulk of fire fighting foam and to discharge the produced fire fighting foam onto a large surface in a layer of uniform thickness, which method and apparatus can particularly be used as fire extinguisher of tanks containing liquid fluids especially liquid hydrocarbons and to extinguish fire thereof.
  • In course of the method according to the invention a composition is prepared consisting of foaming agent, water and gaseous medium.
  • It is well-known that air-foams are generally used to extinguish fire of storage tanks containing inflammable liquids, especially liquid hydrocarbons.
  • It is typical of the known production methods of such fire fighting foams that they are produced on the spot during the process of extinguishing, using means and energy available there at that time. Foaming agent kept on store on the spot or conveyed there by the firemen after the fire has broken out is used for producing the foam, aqueous solution of the foaming agent is produced, and, musing appropriate means to increase its pressure, the foaming agent solution is conveyed to foam-generating head through appropriate pipelines. The streaming foaming agent solution is mixed with air in the foam-generating head and it becomes foaming there, the process of foaming uses up the kinetic energy of the solution, and the foam is directed to the place of application.
  • It is also known that foam fire extinguishing devices used art storage tanks or storage tank farms containing inflammable liquids are fixed or semi-fixed fire extinguishers.
  • Semi-fixed fire extinguishers comprise pipelines or a pipeline-network conveying the foaming agent solution from the inlet place to the storage tanks, one or several foam-generating heads, foam supply pipeline(s) and foam introducing device(s). Separate pumps (firefighting trucks) are necessary to ensure the streaming of the foaming agent solution. The foaming agent used for producing the fire fighting foam is taken to the spot after the fire has broken out, the solution can be prepared and the fire fighting foam can be produced only afterwards.
  • The fixed fire extinguishers have in addition a solution supply centre, a so called extinguishing centre as well. The extinguishing centre is equipped with a ready-to-use foaming agent storing tank, water supply connection taps to gain water or a water-reservoir of the required capacity, proportioners to mix the foaming agent and pumps to establish the required pressure, and these pumps are connected to the pipeline of the foaming agent solution with appropriate valves inserted.
  • Both at fixed and semi-fixed fire extinguishers the fire fighting foam is applied to the surface of the liquid in the same way. At solutions where the foam is introduced in the tank at the rim of the tank, e.g. at fire extinguishers presented in patent specifications USP 4.893.681 and USP 4.148.361 , there are usually more than one foam introducing places along the circumference of the tank. There are foam introducing appliances with foam chambers or foam boxes situated at the foam introducing places as described in Swiss patent specification No. 676.553 , foam deflectors are used to direct the foam stream to the surface of the liquid or to the inner wall of the tank. If the distance between the foam deflectors and the surface of the liquid is larger than a given maximum value, foam sliders equipped with guide- and damping-plates are used to direct the foam to the surface of the liquid and to reduce the velocity of the foam flowing out.
  • Further, there are solutions with devices to let the fire fighting foam under the surface of the liquid in the tank or right to the surface of the liquid at some given places, an example for the former one is described in patent specifications USP 4.664.199 , USP 5.377.765 and USP 5.464.065 , an example for the latter is presented in patent specification USP 5.573.068 .
  • The above described solution, where the fire fighting foam is produced when used on the spot, that is, at the place and at the time of fighting the fire, has several disadvantages as regards both the method and the fire extinguisher apparatuses.
  • The most important disadvantage is that there is a long period of time between the inflammation and the begin of extinction of the fire. Usually it takes about 10 minutes to 2 - 3 hours from the detection of the fire till starting to extinguish it to complete the fire extinguisher system, produce the foaming agent solution and then the fire fighting foam from the foaming agent available on the spot or taken to the spot just that time, and to fill and activate the system to start producing the foam. Further, after the extinguishing of the fire has been started, it also takes significant time to produce enough foam to form a foam blanket of the required thickness and to spread this amount of foam in uniform thickness on the surface of the burning liquid. During this time the damage caused by the fire is permanently increasing regarding both the material destroyed and the growing damage done to the otherwise valuable tank, while the environment is also being permanently polluted. In order to indicate the magnitude of the damage and its being proportional with time, we present an example. The surface of a tank of 30000 m3 is about 2000 m2, the burping-rate constant of petrol is 7 mm/min, so approximately 14 m3 petrol is burnt in the fire every minute. In addition to the loss caused by the destruction of such an amount of petrol, the released heat also endangers the surrounding establishments, and if it is a tank farm, the other tanks are also considerably endangered.
  • It is a further important disadvantage that the reliability of the process of foam production is low, as foam production may be reduced or made impossible by a possible gag of the narrow flow cross section of the nozzle of the foam generating injector due to contamination with dust or dirt, or by tapering of the air inhausting holes, e.g. getting obstructed with tree-leaves. It is a further disadvantage that foam-volume flow and foam intensity is limited. The basic reason of this limit is that the foam is generated via using up the kinetic energy of the foaming agent solution. Nearly the entire pressure causing the solution to flow drops at the foam generating head, the pressure of the foam ejected from the foam generating head is close to the atmospheric pressure, and it drops to the atmospheric pressure in the foam supply pipeline, hence the limit of foam production is determined by the upper limit of the transporting capacity of the device generating the flow of the solution, e.g. the capacity of the pump. A further limit is set by the narrow cross section of the nozzle used for foam production. A further disadvantage of the method is the varying quality of the foam, as the quality of the fire fighting foam produced as described above is varying depending on the actual flow conditions, reducing the effectiveness of extinguishing the fire.
  • As regards fixed extinguishers, where all the components necessary for producing the fire fighting foam are available and all the equipment is stored in a ready-to-use status on the site of the possible fire, near the storage tank of the inflammable liquid, usually at the edge of the tank farm, it is a further disadvantage that the foaming agent solution is started to be produced when it is used, and it is produced until the fire is safely extinguished. Not only the price of the installation of such a fixed fire extinguisher is quite high, but the require bulk of foaming agent to be stored on the spot requires significant investment.as well.
  • As regards semi-fixed fire extinguishers, it is a further disadvantage that as it is only the pipeline-network conveying the foaming agent solution, the foam generating heads, the foam supply pipelines and the foam introducing devices that are settled on the spot, and in case of fire, the foaming agent concentrate or the foaming agent solution is taken to the spot with a transport vehicle, it is mixed with water on the spot using the instruments of the transport vehicle, and it is pumped into the settled pipeline artwork with pumps ensuing the required pressure, the extinguishing of the fire can be started only with significant delay, and in certain cases the time lost can not be regained.
  • A further disadvantage of the above described fire extinguishers in connection with the former problems is that the foam let to the surface of the liquid is uneven. The known method of letting the foam to the surface at certain places along the circumference of the tank or discharging the foam from the foam box does not form a foam blanket of uniform thickness, and it takes long time till the foam emitted forms a foam blanket entirely covering the surface of the liquid. The part of the surface not covered with foam keeps burning during this long time and the foam may be spoiled at the edge of the foam blanket, therefore the process of extinguishing drags out.
  • It is a further disadvantage that, as the foam produced in the foam generating head and conveyed through the foam supply pipelines is used immediately after leaving the foam supply pipeline, and it is used up when being applied, it is practically impossible to reduce the unsteadiness of foam generation or to modify the quality of the foam during operation, considering that usually there is a surface burning with high flames where the foam is emitted. Hence the equality of the foam produced and used when extinguishing the fire is determined by the parameters specified in advance and the actual conditions of foam generation, and it is not always the optimum for the given fire.
  • The major disadvantages of the above described solutions - the set-up time before starting extinguishing, the unsteadiness of foam generation, the fact that the foam is generated via using up the kinetic energy of the flowing solution, the resulting limited intensity of the foam, the incalculable quality of foam and the slow spreading of the foam - made it necessary to seek for a solution where the foam for fighting fire can be produced and directed to the place of application without the disadvantages listed above.
  • The fundamental consideration of the invention is that the disadvantages described above can be attributed to the simultaneity of generating and applying the foam. The basic idea of the invention is that if the production and application of the fire fighting foam is divided into two separate actions, that is, if the generation and the conveyance of the fire fighting foam is separated in a way that the generation of the foam is independent from its flowing, and we store the energy necessary for the conveyance of the foam together with the essentially ready foam in the form of pressure energy, all these make it possible to produce foam of uniform quality that can be better influenced than in case of the known methods, and to adjust the quantity emitted, which makes the extinction of the fire quick and economical. It is a further idea that we can store the fire fighting foam produced with the method in a device that is connected to the known foam conveying and foam emitting devices, forming this way a fixed fire extinguisher that is able to supply fire fighting foam immediately in case of fire.
  • An other further idea leading to the invention was that foam can be emitted in a smooth manner within a short time with a device where the foam is emitted not at a single point, but along a longer section, preferably along the circumference of the surface of the liquid or the sidewall of the tank etc. at the same time, the device being able to emit the same amount and quality of foam at any point of emission along the section.
  • In course of the fire fighting foam production method according to the invention, which is a solution for the problem, a composition is prepared consisting of foaming agent, water and gaseous medium. The essence of the method is that the composition is prepared via dissolving or emulsifying the components in one another under overpressure, the composition prepared this way is stored under overpressure at the required place for the required period of time, transported if necessary while the overpressure is maintained, and it is expanded via decompressing it on the spot and at the time of application.
  • In course of implementing the method of the invention the water-soluble gaseous medium can preferably be carbon-dioxide. For solving the gaseous medium, the overpressure is chosen to be at least 10 bar, preferably more than 15 bar. Dissolution is made at ambiant temperature. It is quite advantageous to complete the solution in a way that liquid carbon-dioxide is absorbed in water. If water-insoluble gases, e.g. halogenated hydrocarbons are used, the gaseous medium is to be dispersed in the foaming agent or the aqueous solution thereof at a pressure of 10 - 40 bar, preferably above 16 bar. In order to make dispersion more uniform known emulsifying agents indifferent against the foaming agent can be used.
  • The ready-to-use fire fighting foam is generated when the composition is released to the atmospheric pressure, by expansion of the gaseous medium dissolved or dispersed in the composition, via certain inflation of the generated bubbles as a result of the decrease of overpressure. As the final step of foam production, the composition under overpressure is let out to atmospheric pressure preferably at the place of application, above or below the burning surface of the liquid, therefore the fire fighting foam is immediately used on the spot when it takes its final form, and the apparatus producing the foam can be considered as a fixed fire extinguisher.
  • The essence of the apparatus according to the invention suitable or producing fire fighting foam being a solution for the problem is that it comprises a high-pressure foam source, a foam expanding spreading device and a pressure resistant pipeline connecting the high-pressure foam source with the foam expanding spreading device.
  • A preferable, automatic embodiment of the apparatus comprises a valve inserted in the pressure resistant pipeline, preferably a remote controlled valve.
  • The embodiments of the apparatus of the invention can be built up to different extent, depending on the demand.
  • It is an advantageous embodiment where the high-pressure foam source of the apparatus has a high-pressure tank containing a composition, under overpresure, consisting of foaming agent, water and gaseous medium and the pressure resistant pipeline is connected to the opening of the tank with a main valve inserted.
  • If greater extent of foam is to be produced, it is an advantageous embodiment where the high-pressure foam source of the apparatus comprises a pressure resistant high-pressure tank containing water with foam generating gas absorbed in it under overpressure, a foaming agent container and a mixer, the pressure resistant high-pressure tank is connected to one inlet of the mixer with a stop-valve inserted, and the foaming agent container is connected to the other inlet of the mixer, while the outlet of the mixer is connected to the pressure resistant pipeline directly or with a second valve inserted.
  • If very great extent of foam is to be produced, e.g. to be used at a tank farm, it is an advantageous embodiment where the high-pressure foam source of the apparatus comprises an absorbing vessel and a liquid or gaseous foam generating gas container connected to one inlet of the absorbing vessel directly or with a pressure controller inserted, a mixer with a foaming agent container connected to one of its inlets, the other inlet of the absorbing vessel is fashioned in a way that it can be connected to a water supply, the outlet of the absorbing vessel is connected to the other inlet of the mixer, and the outlet of the mixer is connected to the pressure resistant pipeline.
  • At an other advantageous embodiment to be used if very great extent of foam is to be produced, e.g. at a tank farm, the high-pressure foam source of the apparatus comprises an absorbing vessel and a liquid or gaseous foam generating gas container connected to one inlet of the absorbing vessel directly or with a pressure controller inserted, a mixer with a foaming agent container connected to one of its inlets, the other inlet of the mixer is fashioned in a way that it can be connected to a water supply, the outlet of the mixer is connected to the other inlet of the absorbing vessel, and the outlet of the absorbing vessel is connected to the pressure resistant pipeline.
  • If the apparatus is used at a tank farm, the pressure resistant pipeline of the apparatus branches and a disconnecting valve is inserted in each branch of the pipeline.
  • According to another embodiment of the invention the apparatus comprises a foam expanding spreading device to be used for discharging fire fighting foam onto a large surface in a layer of uniform thickness. The essence of the first version of the device to be primarily used at applications of lower output demand is, that it comprises an admission opening and a discharge mouth, arranged on a tubular distributing body suitably forming a closed loop, preferably of torus shape, the discharge mouth, suitably a slit or a set of holes, is situated on the nappe of the tubular distributing body along its length, preferably along its generating line. If the device is a longer one, it is an advantageous form where the discharge mouth, suitably a slit or a set of holes, is formed in a way that its size per unit length of the tubular distributing body. is growing according to the distance from the admission opening.
  • the essence of the second version of the foam expanding spreading device to be used for discharging fire fighting foam onto a large surface in a layer of uniform thickness, to be primarily used at applications of higher output demand, is that it comprises an admission opening and a discharge mouth, a tubular distributing body suitably forming a closed loop, preferably of torus shape, a suitably tubular high-pressure receiving chamber preferably forming a closed loop, preferably of torus shape, mostly arranged in a way that the torus shaped distributing body is concentrically surrounded by the torus shaped high-pressure receiving chamber, the distributing body is connected to the high-pressure receiving chamber with hydraulically balanced feeding, and the discharge mouth, suitably a slit or a set of holes, is situated on the nappe of the tubular distributing body along its length, preferably along its generating line, and the admission opening is the admission opening of the high-pressure receiving chamber.
  • The main advantage of the method according to the invention is that the fire fighting foam is generated when the composition of the foaming substance is released from the apparatus to the space of atmospheric pressure by expansion of the compressed gaseous medium in the composition, therefore the foam of the required quality is surely produced. It is a further advantage that the risk of failure is very low as there is no nozzle-like narrowing in the pipelines. The tanks storing the composition with the gaseous medium absorbed in it are pressurised energy-storing devices, hence their operation usually does not depend on external factors, e.g. intermission of electric supply etc, and the set-up time before starting extinguishing is negligible.
  • At apparatuses storing small amount of composition (50-100 m3) containing compressed gaseous medium absorbed in it, successful extinction of the fire is ensured even in total lack of fire water system.
  • A further significant advantage of the method and apparatus of the invention is that it is suitable for realising very high foam intensity. If we want to empty a tank filled with the required quantity of composition of 16, 25 or 40 bar operational pressure during a pre-determined period of time, knowing the length of the foam supply pipeline we can determine the required diameter of the pipeline. For example it takes 3 minutes to empty an experimental tank filled with 50 kg composition from 14 bar to atmospheric pressure through a 2" pipeline of 4 meter length, the time of extinguishing is approximately the same, and the foam blanket laid on the approximately 10 m2 surface of the liquid is 10 cm thick, resulting in successful extinction of the fire.
  • A further advantage of the method and apparatus according to the invention is that it supplies foam of uniform quality. As the ratio of all the components of the foam is adjusted when completing the composition in advance, the ratio of the volume of the bubbles and the quantity of the foaming agent solution, that is, the spreading rate of the foam is no longer dependent on external parameters. It also implied the possibility that in course of its operation an apparatus can continuously supply foam of quality chosen as optimal for the given application.
  • It is an extra advantage of the apparatus comprising the foam expanding spreading device that it is suitably situated ground the surface of the liquid, and in course of its operation the foam emitted is ring-shaped, and this ring is closing more and more while extinguishing the fire, and finally covers the entire surface of the liquid. It is a further extra advantage of the apparatus comprising the foam expanding spreading device that it is suitable for letting the foam either to the surface or under the surface of the liquid.
  • The essence of the invention is now described in detail in connection with preferable embodiments with reference to the accompanying drawings in which:
    • Figure 1
    is the sketch of the first embodiment of the fire fighting foam producing and fire extinguishing apparatus according to the invention installed at a tank,
    Figure 2
    is the sketch of the second embodiment of the apparatus according to the invention installed at a tank,
    Figure 3
    is the sketch of a the third embodiment of the apparatus according to the invention installed at a tank,
    Figure 4
    is a sketch of an advantageous version of the foam expanding spreading device,
    Figure 5
    shows the varying dimension of the slit acting as the discharge mouth of the foam expanding spreading device shown in figure 4, via "straighening" the device,
    Figure 6
    shows the foam expanding spreading device shown in figure 4, in section along the A-A plane indicated there,
    Figure 7
    shows another version of the foam expanding spreading device in similar section as indicated in figure 4,
    Figure 8
    is a lateral view and section of the foam expanding spreading device shown in figure 4 installed in a tank,
    Figure 9
    is the sketch of a further advantageous embodiment of the apparatus,
    Figure 10
    is the view of the second version of the foam expanding spreading device,
    Figure 11
    shows the section of the foam expanding spreading device shown in figure 10,
    Figure 12
    is the view of the third version of the foam expanding spreading device.
  • The apparatus shown in figure 1 comprises a high-pressure foam source (10) which has a pressure resistant tank (12), there is a pipe stub established on the tank (12), (not indicated in the figure) so as to introduce water, foaming agent and gaseous medium. A circulating pump can be connected to the appropriate pipe stubs of the tank (12) in a detachable way, which can be used for dispersing the components under pressure in the tank (12).
  • The tank (12) is an installed tank, a pressure resistant pipeline (40) is connected to its outlet which is the outlet of the foam source (10) and a remote controlled main valve (42) is inserted in the pipeline (40). The valve (42) may be controlled by a sensor (49) situated in a storage tank (1) with the help of an appropriate control unit (50). The end of the pipeline (40) is protruding into the inner space of the storage tank (1) containing the inflammable liquid, where it is connected to a foam expanding spreading device (60) situated inside the storage tank (1) above the surface of the liquid along the nappe of the storage tank (1).
  • In course of the operation of the apparatus the compressed foaming composition consisting of the foaming agent, water and the propellant gas is prepared in the tank (12) or the composition already prepared is filled in the tank (12). If necessary the mixing of the composition can be promoted using a mechanic mixer and the circulating pump. The composition is stored in this status until being used. When using the apparatus the foaming composition is let into the foam expanding spreading device (60) through the pipeline (40) by opening the valve (42), and the foaming composition is expanding when leaving the device (60). The expanded foaming composition is the ready-to-use fire fighting foam itself, which is immediately let to the place of application.
  • The apparatus shown in figure 2 comprises a high-pressure foam source (10) having a high-pressure tank (15) containing the foam generating gas absorbed in water, a foaming agent container (17) and a mixer (30). Water and gaseous medium is let into the tank (15) mixed or separately through an appropriate pipe stub, and mixing can be promoted using a mechanic mixer and a circulating pump. The outlet of the tank (15) is connected to one inlet of the proportional mixer (30) with a stop-valve (32) inserted, and the foaming agent container (17) is connected to the other inlet of the mixer (30). The outlet of the mixer (30) which is the outlet of the high-pressure foam source (10) is connected to a foam expanding spreading device (60) by a pressure resistant pipeline (40).
  • In course of the operation of the apparatus water with foam forming and propellant gas absorbed in it is completed in the tank (15) under overpressure, and it is mixed with the foaming agent concentrate with the help of the mixer (30) when the apparatus is used.
  • This three-component composition containing the compressed propellant gas absorbed in it is let through the pipeline (40) and the ready fire fighting foam is generated via its expansion as described above.
  • The apparatus shown in figure 3 comprises a high-pressure foam source (10) having a water tank (20) connected to one inlet of an absorbing vessel (35) with a booster pump (22) inserted. The outlet of a gas container (19) containing a compressed foam forming and propellant gas is connected to the other inlet of the absorbing vessel (35) with a pressure controller (37) inserted. The outlet of the absorbing vessel (35) is connected to one of the inlets of a mixer (30), while the outlet of a foaming agent container (17) is connected to the other inlet of the mixer (30). The outlet of the mixer (30) is connected to pressure resistant pipelines (40) leading to storage tanks containing inflammable liquids, where they are connected to foam expanding spreading devices, of which the figure shows only one foam expanding spreading device (60) situated in tank (1). The pipeline (40) branches and a disconnecting valve (45, 46) is inserted in each branch of the pipeline.
  • In course of the operation of the apparatus water stored in the tank (20) is enriched with foam forming and propellant gas stored under overpressure in the container (19) in the absorbing vessel (35) and foaming agent concentrate is mixed to this compound in the mixer (30). The three-component composition discharged from the mixer (30) is conveyed to the tank selected (e.g. 1) through the pipeline (40), through its branch determined by the open disconnecting valve (45, 46) of the pipeline (40), and the fire fighting foam is generated there via its expansion as described below.
  • Figure 4 shows an advantageous version of the foam expanding spreading device (60). The foam expanding spreading device (60) has a tubular distributing body (63) forming a kind of ring adjusted to the shape of the storage tank to be protected, fitting close to the inner surface of the sidewall of the tank under the rim of it, and an admission opening (62) is formed on the branch neck (61) of the foam expanding spreading device (60).
  • The discharge month on the tubular distributing body (63) of the foam expanding spreading device (60) is formed as a slit (65) parallel to the axis of the tubular distributing body (63) in a way that the distance between the edges of the slit (65) is growing according to the distance from the admission opening (62). The growing size of the slit is better seen in figure 5, where a part of the foam expanding spreading device (60) is shown "straightened" for better understanding. The cross section of the admission opening (62) and the slit (65) on the body (63) is conveniently the same.
  • Figure 6 shows the foam expanding spreading device (60) in section along the A-A plane indicated in figure 4, the arrow shows the direction of outflow of the foam. The foam expanding spreading device (60) producing a vertically downwards directed foam-fall can be suitably used in floating roof tanks, the foam flow is directed in the slit (63) between the floating roof and the sidewall of the tank. At the solution shown in figure 7 the slit (65) of the device (60) is situated so as to produce foam-fall directed partly downwards and partly sideways, and it is particularly advantageous to apply it at tanks with open liquid surface.
  • In course of operation the foam flowing in through the admission opening (62) is released through the slit (65). The size of the slit (65) is growing according to the distance from the admission opening (62), so the amount of foam released at sections of the slit farther away from the admission opening (62) is the same as the amount of foam released at sections closer to the admission opening (62), as the pressure of the foam at sections of the slit closer to the admission opening is higher. Accordingly, it can be attained that the foam blanket released is of uniform thickness all along the slit (65). If it is a cylindrical tank, the surface of the liquid is covered in a concentric manner, therefore the surface is entirely covered within a short time.
  • Figure 8 shows the foam expanding spreading device (60) installed in a tank (1), the dimensions in the figure are not in proper proportion. The position of the admission opening (62) can be clearly seen in the figure, and it is also clearly seen that the slit (65) acting as a discharge mouth is narrower at its end closer to the admission opening (62), and it is wider at its other end farther from the admission opening (62).
  • Figure 9 shows a further embodiment of the apparatus according to the invention. It comprises a high-pressure foam source (10) where a water tank (20) is connected to one inlet of a proportional mixer (30) with a pump (22) inserted, and a foaming agent container (17) is connected to the other inlet of the proportional mixer (30). The outlet of the proportional mixer (30) is connected to one inlet of an absorbing vessel (35), and a foam generating gas container (19) is connected to the other inlet of the absorbing vessel (35) with a pressure controller (37) inserted. The outlet of the absorbing vessel (35) is the outlet of the foam source (10), and it is connected to high-pressure pipeline (40) which branches at this example as well, and disconnecting valves (45, 46) are inserted in each branch. In course of the operation of the apparatus a solution is made from the foaming agent using the proportional mixer (30), and then the foam generating gas is absorbed in this solution under overpressure. The completed composition appears at the outlet of the absorbing vessel (35) and gets into the pipeline (40) in compressed ready-to-use form.
  • The foam expanding spreading device (60) shown in figure 10 comprises a high-pressure receiving chamber (67) and a tubular distributing body (66). The chamber (67) is connected to the tubular body (66) with hydraulically balanced feeding, at this embodiment it is attained via connecting members (71, 72 and 73) of choking effect between the chamber (67) and the distributing body (66), the chokes in the connecting members (71, 72 and 73) are shown in the figure in broken-out section of the connecting members (71, 72 and 73). A slit (68) acting as a discharge mouth is made along the generating line of the essentially tubular distributing body (66), while the high-pressure receiving chamber (67) is connected to the pipeline (40) at the admission opening (69) of the chamber (67).
  • Figure 11 shows the foam expanding spreading device (60) shown in figure 10, in section along the A-A plane indicated there. The high pressure receiving chamber (67) and the distributing body (66) connected to it by the connecting member (73) of choking effect is clearly seen in the figure as well as the foam discharging slit (68) of the distributing body (66) along its generating line, and the admission opening (69) of the chamber (67).
    In course of the operation of the foam expanding spreading device (60) the pressure drops at the members of choking effect, so it is the expanded ready fire fighting foam that gets into the inner space of the distributing body (66). The longitudinal position of the distributing body (66) and the slit (68) ensures that the fire fighting foam is let to the place of application in the form of a blanket.
  • Fig. 12. shows an other version of the foam expanding spreading device to be used for discharging fire fighting foam onto a large surface liquid filled in storage tank. The spreading device comprises a tubing (80) which extends over the centre of tank (90). The tubing (80) has an admission end (81) which is able to join a pressure resistant pipeline, the other end has a discharge mouth having larges size than admission opening. The discharge mouth is arranged in a position which is directed to the surface of liquid over and in the discharge mouth there are deflection plates (83) to spread foam uniformly in the whole discharge mouth. In the tubing (80) there is an expansion tract (85).
  • In course of the operation of the foam expanding spreading device the pressure drops partly already at the expansion tract (85) further in the discharge mouth, so the ready fire fighting foam gets onto the deflection plates and directed to the surface of liquid.

Claims (13)

  1. Method for producing fire fighting foam in course of which composition is prepared consisting of foaming agent, water and gaseous medium, characterised in that the composition is prepared via dissolving or emulsifying the components in one another under overpressure, the composition prepared this way is stored under overpressure at the required place for the required period of time, transported if necessary maintaining the overpressure, and it is expanded via decompressing it on the spot and at the time of application.
  2. Apparatus for producing fire fighting foam characterised in that it comprises a high-pressure foam source (10) with a high-pressure tank (12) containing a composition consisting of foaming agent, water and gaseous medium, a foam expanding spreading device (60) and a pressure resistant pipeline (40) connecting the high-pressure tank (12) of the high-pressure foam source (10) with the foam expanding spreading device (60).
  3. Apparatus according to claim 2 characterised in that the pressure resistant pipeline (40) is connected to the opening of the tank (12) with a main valve (42) inserted.
  4. Apparatus for producing fire fighting foam characterised in that it comprises a high-pressure foam source (10) comprising a pressure resistant high-pressure tank (15) containing water with foam generating gas absorbed in it, a foaming agent container (17) and a mixer (30), the pressure resistant high-pressure tank (15) is connected to one inlet of the mixer (30) with a stop-valve (32) inserted, and the foaming agent container (17) is connected to the other inlet of the mixer (30), while the outlet of the mixer (30) is connected to a pressure resistant pipeline (40) directly or with a second valve inserted.
  5. Apparatus for producing fire fighting foam characterised in that it comprises a high-pressure foam source (10) comprising an absorbing vessel (35) and a liquid or gaseous foam generating gas container (19) connected to one inlet of the absorbing vessel (35) directly or with a pressure controller (37) inserted, a mixer (30) with a foaming agent container (17) connected to one of its inlets, the other inlet of the absorbing vessel (35) is fashioned in a way that it can be connected to a water supply, the outlet of the absorbing vessel (35) is connected to the other inlet of the mixer (30), and the outlet of the mixer (30) is connected to a pressure resistant pipeline (40).
  6. Apparatus for producing fire fighting foam characterised in that it comprises a high-pressure foam source (10) comprising an absorbing vessel (35) and a liquid or gaseous foam generating gas container (19) connected to one inlet of the absorbing vessel (35) directly or with a pressure controller (37) inserted, a mixer (30) with a foaming agent container (17) connected to one of its inlets, the other inlet of the mixer (30) is fashioned in a way that it can be connected to a water supply, the outlet of the mixer (30) is connected to the other inlet of the absorbing vessel (35), and the outlet of the absorbing vessel (35) is connected to a pressure resistant pipeline (40).
  7. Apparatus according to claim 5 or claim 6 characterised in that the pressure resistant pipeline (40) branches and a disconnecting valve (45, 46) is inserted in each branch of the pipeline (40).
  8. Apparatus according to anyone of claims 2 to 7 characterised in that there is a valve inserted in the pressure resistant pipeline (40), preferably a remote controlled valve (42).
  9. Apparatus according to to any one of the claims 2 to 8 comprising a foam expanding spreading device (60) for discharging fire fighting foam onto large surface, characterised in that the foam expanding spreading device (60) comprises an admission opening (62) and a discharge mouth, a tubular distributing body (63, 66) forming a closed loop, preferably of torus shape, the discharge mouth, preferably a slit (65) or a set of holes, is situated along the lenght of the tubular distributing body (63, 66).
  10. Apparatus according to claim 9 characterised in that the discharge mouth, preferably a slit (65) or a set of holes, is formed in a way that its size per unit length of the tubular distributing body (63, 66) is growing according to the distance from the admission opening (62).
  11. Apparatus according to claim 9 characterised in that the foam expanding spreading device (60) further comprises a preferably tubular high-pressure receiving chamber (67) forming a closed loop, preferably of torus shape, arranged in a way that the torus shaped distributing body (66) is concentrically surrounded by the torus shaped high-pressure receiving chamber (67), the distributing body (66) is connected to the high-pressure receiving chamber (67) with hydraulically balanced feeding, and the discharge mouth, preferably a slit (68) or a set of holes, is situated along the length of the tubular distributing body (66), and the admission opening (69) is the admission opening of the high-pressure receiving chamber (67).
  12. Apparatus according to to any one of the claims 2 to 8 comprising a foam expanding spreading device for discharging fire fighting foam onto large surface of liquid filled in a storage tank, characterised in that the foam expanding spreading device comprises a tubing (80) which, in use, extends over the centre of the tank, the tubing has an admission end (81) which is able to join the pressure resistant pipeline (40), the other end has a discharge mouth having larger size then admission opening, the discharge mouth is arranged in a position which is directed to the surface of liquid over and in the discharge mouth there are deflection plates to spread foam uniformly in the whole discharge mouth.
  13. Apparatus according to claim 12 characterised in that in the tubing there is an expansion tract (85).
EP99915962A 1998-04-15 1999-04-15 Method and high-capacity apparatus for producing fire fighting foam and foam expanding spreading device Expired - Lifetime EP1075316B1 (en)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
HU9800877 1998-04-15
HU9800877A HU225201B1 (en) 1998-04-15 1998-04-15 Method and apparatus for producing of fire foam and spraying tool for expandation of said foam
PCT/HU1999/000027 WO1999052599A1 (en) 1998-04-15 1999-04-15 Method and high-capacity apparatus for producing fire fighting foam and foam expanding spreading device

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EP1075316B1 true EP1075316B1 (en) 2008-05-21

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AT (1) ATE395950T1 (en)
AU (1) AU762141B2 (en)
CA (1) CA2328972C (en)
DE (1) DE69938781D1 (en)
ES (1) ES2310036T3 (en)
HK (1) HK1034915A1 (en)
HR (1) HRP20000779B1 (en)
HU (1) HU225201B1 (en)
NO (1) NO333796B1 (en)
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SK (1) SK15522000A3 (en)
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SE501805C2 (en) * 1993-10-25 1995-05-15 Svenska Skum Ab Procedure for extinguishing fire in open or enclosed spaces and device for carrying out the procedure
US5573068A (en) * 1994-06-14 1996-11-12 Council Of Scientific & Industrial Research Apparatus for extinguishing fires in oil storage tanks
DE19542708B4 (en) * 1995-11-16 2004-06-03 Minimax Gmbh Fire extinguishing system

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AU3437499A (en) 1999-11-01
AU762141B2 (en) 2003-06-19
DE69938781D1 (en) 2008-07-03
EP1075316A1 (en) 2001-02-14
WO1999052599A1 (en) 1999-10-21
HUP9800877A2 (en) 2003-12-29
HU9800877D0 (en) 1998-06-29
PL343511A1 (en) 2001-08-27
ZA200006454B (en) 2001-01-31
CA2328972A1 (en) 1999-10-21
HRP20000779B1 (en) 2010-01-31
SK15522000A3 (en) 2001-04-09
HU225201B1 (en) 2006-08-28
PL189566B1 (en) 2005-08-31
HRP20000779A2 (en) 2001-06-30
CA2328972C (en) 2010-07-06
ES2310036T3 (en) 2008-12-16
NO20005175L (en) 2000-12-05
NO20005175D0 (en) 2000-10-13
HK1034915A1 (en) 2002-01-04
ATE395950T1 (en) 2008-06-15
NO333796B1 (en) 2013-09-16

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