RU2169597C1 - Composition for prevention of inflammation and explosion of combustion mixtures - Google Patents

Abstract

FIELD: fire protection. SUBSTANCE: composition preventing inflammation and explosion of mainly hydrogen-air and methane-air mixtures contains inhibitor selected from the group including at least one C2-C8- hydrocarbon and at least one fluorine-containing chladone compound: trifluoromethane, trifluorochloromethane, trifluoroiodoromethane, pentafluoroethane, heptafluoropropane, hexafluoropropane, perfluorojodobutane, perfluorohexane, octafluorocyclobutane, pentafluoroethane, chiefly pentafluorobutane. Above-mentioned hydrocarbon can be mixture of saturated and unsaturated hydrocarbons, chiefly propane, butane, and propylene. EFFECT: extended versatility of composition and reduced consumption of inhibitor and increased its inhibiting activity. 4 cl, 3 tbl

Description

 The invention relates to the field of preventing ignition and explosion of combustible mixtures, namely a hydrogen-air or methane-air mixture, in particular to compositions, and can be used in the mining industry, mainly in coal, to prevent catastrophes due to the explosion of a methane-air mixture in a worked out space, to prevent an explosion hydrogen-air mixtures, as well as in the field of production of hydrogen, methane and other areas associated with either the production of hydrogen and methane, or with their use.

 There is a method of preventing the explosion of a coal-air mixture by igniting a coal-air mixture at the earliest stage of its entry into the mine using the ignition initiator system, which is located along the longitudinal axis of the mine section and is turned on until the methane-coal mixture enters the mine, and after switching on, the ignition initiators function continuously time (Russian patent N 2129211, E 21 F 5/00, B. I. N 11, 04/20/99). As an ignition initiator, a kerosene or oil lamp, an electric coil or a filament are used.

 The invention is effective both with a fairly slow flow of methane into the mine and with methane emissions, however, the limitation of the method is the impossibility of preventing an explosion in the event of a fire in the places of methane emission.

 A known method of preventing and extinguishing an endogenous fire in a mined mine space, including preparing a fire extinguishing mixture in the form of a stable aerosol from a mixture of ethylene bromide vapor and tetrafluorodibromoethane - TFDBE, the fire extinguishing mixture is fed into the worked out space from the bottom up after reaching equal air pressure (USSR copyright certificate N 861646, E 21 F 5/00, A 62 D 1/00, 1981). The high toxicity of the vapors of ethyl bromide and tetrafluorodibromoethane limits the use of the method.

A known inhibitor for preventing ignition and explosion of hydrogen-air mixtures containing a mixture of alkanes and alkenes with the number of carbon atoms in the molecule from 1 to 6, for example balloon gas (RF patent N 2042366, A 62 D 1/00, 1995). The inhibitor allows you to reduce the upper concentration limit of the explosion of hydrogen-air mixtures from 75 to 46 vol.% Hydrogen, with the content of the inhibitor composition: 17% C ₃ H ₈ + 38% C ₄ H ₁₀ + 20% C ₃ H ₆ + 25% C ₄ H ₈ , in an amount of 2 vol. % relative to hydrogen-air mixtures and up to 20% when its content in the amount of 6 vol.%; up to 13% when using an inhibitor of the composition: 80% C ₆ H ₁₄ + 20% C ₆ H ₁₂ in an amount of 6 vol.%, i.e. make hydrogen-air mixtures not dangerous for storage, transportation and use.

 The known inhibitor is not effective enough in the low hydrogen content of the hydrogen-air mixture and to prevent the explosion of methane-air mixtures.

 Closest to the claimed is a method of preventing ignition and explosion of hydrogen-air mixtures using an inhibitor, which is used as at least one normal, cyclic or isostructure hydrocarbon containing from one to eight carbon atoms in the molecule, while the concentration of the inhibitor is in the range of 0, 1 - 15.5 vol. % relative to hydrogen-air mixtures (RF patent N 2081892, C 09 K 15/04, 1997).

The use of a known inhibitor can reduce the upper concentration limit of flammability of hydrogen from 75 to 49 vol.% When using 2 vol. % ethylene C ₂ H ₆ and up to 30% when its content is 8 vol.% in a hydrogen-air mixture; up to 45.5 vol.% when using 3.0 vol.% benzene and up to 35.5% when its content is 6.0 vol.%; up to 41% with a content of 2.0 vol.% octane as an inhibitor and up to 29.5% with its content of 6.0 vol.%.

 A common disadvantage of the last two known inhibitors is the insufficiently high inhibitory ability with respect to methane-air mixtures.

 The main disadvantage of the prototype is that the inhibitor greatly lowers the lower concentration limit of the flame spread of the hydrogen-air mixture, i.e. when supplied to the protected volume, it can transfer a non-combustible hydrogen-air mixture into a combustible discharge, for example, a mixture of 1 vol.% hydrogen and 99 vol.% air does not burn, and when 4 vol.% ethane is added to it, the mixture becomes combustible.

 The objective of the invention is the creation of a universal safe composition to prevent ignition and explosion of combustible mixtures, mainly hydrogen and methane-air mixtures, reducing the consumption of inhibitor and increasing its inhibitory ability.

 The objective is achieved in that the composition for preventing ignition and explosion of combustible mixtures, mainly hydrogen and methane-air mixtures, contains an inhibitor selected from at least one hydrocarbon containing from two to eight carbon atoms in the molecule, in an amount of 1-60 vol. % and 40 - 99% vol., mainly 58.3 - 85% vol., at least one compound selected from a number of fluorine-containing freons: trifluoromethane, trifluorochloromethane, trifluoroiodomethane, pentafluoroethane, heptafluoropropane, hexafluoropropane, perfluorobutane, perfluorohexane, octafluorobutane pentafluorobutane , mainly perfluorobutane, while the composition of the hydrocarbon contains mainly a mixture of saturated and unsaturated hydrocarbons, mainly propane, butane and propylene.

 The hydrocarbons used in the composition can be used in any ratio among themselves, as far as mixtures are concerned. Of the number of saturated hydrocarbons, the most used are: ethane, propane, butane, pentane, hexane, heptane, octane and their isomers. Of a number of unsaturated hydrocarbons, a diene series of these hydrocarbons is predominantly used.

 Studies have shown that increasing the content of freon above 85% vol. Increases the cost of the composition, but increases the lower flammability limit of combustible mixtures, which is a positive effect.

 The proposed composition is obtained by mixing its components according to their partial pressures (vol.%) In a closed vessel. Thus prepared mixture with the help of compressors is pumped into a high pressure cylinder for storage and use.

 The effect of the claimed composition on the ignition and explosion of combustible mixtures: hydrogen-air and methane-air is presented in detail on a composition containing 41.7 vol. % hydrocarbon containing: (17% propylene + 41% butane + 42% propane) - AKAM brand name and 58.3 vol.% perfluorobutane in a wide range of composition concentrations (from 1 to 11.0 vol.% of the composition in combustible mixtures).

The process was studied in a 4.4 dm ³ spherical reactor capable of withstanding pressure up to 100 atm and made of stainless steel. The reactor is equipped with a special window for detecting chemiluminescence ignition and a pressure sensor with a thermostatic, corrosion-resistant membrane for detecting pressure changes resulting from the reaction.

 Ignition was recorded by flame emission (chemiluminescence) visually and using a photodiode, as well as by pressure jump and reagent consumption. The installation also allows you to take samples from the reactor for analysis in order to determine the degree of reagent consumption as a result of combustion. Gas analysis was performed using a chromatograph. Working gas mixtures containing hydrogen or methane, air and an inhibitor were made directly in the reactor. Before exhausting the gases, the reactor was evacuated to a pressure of 0.4 Pa, then the composition, hydrogen or methane and air were successively injected into the reactor, controlling their amount by partial pressures. Depending on the pressure interval, the measurements were carried out using an exemplary pressure gauge, vacuum gauge, and mechanotron.

 Gas was ignited using a spark ignition source located in the center of the reactor.

 For a better understanding of the invention, specific examples are summarized in tables 1 to 3.

 Tables 1 and 2 indicate the content of the components: hydrogen or methane, air and the claimed composition, the ability to ignite, the concentration limits are upper and lower. The “+” sign indicates ignition over the entire volume of the chamber and the “-” sign indicates the absence of ignition and in brackets the upper limit is the ignition of the combustible mixture.

 Table 1 presents the effects of the composition: an inhibitor of 41.7 vol.% AKAM and 58.3 vol.% HFC-perfluorobutane on the flammability of hydrogen-air mixtures.

 From the data shown in table 1, it is seen that using the specified composition, the ignition and explosion of the hydrogen-air mixture are effectively suppressed. So the use of the specified composition in an amount of 2.0 vol.% Relative to the hydrogen-air mixture, reduces the upper concentration limit of flammability from 75% for hydrogen to 41 vol.%; when the composition is in the amount of 4 vol. % upper concentration is reduced to 31 vol.%; with a content of 9 to 11 vol. % of the claimed composition prevents the ignition and explosion of a hydrogen-air mixture in the entire concentration range.

 Table 2 presents the results of the influence of the composition: an inhibitor of 41.7 vol.% "AKAM and 58.3 vol.% Of HFC-perfluorobutane on the flammability of the methane-air mixture.

 As follows from the data of table 2, the use of the claimed composition to prevent ignition and explosion of a methane-air mixture, when its content is not more than 6 vol.%, Allows to lower the upper concentration limit of flammability to 7.75 vol.% The methane content in a methane-air mixture, i.e. almost twice (the explosive limit lies in the region of 5.25-14.8% of the methane content in the air). When the content of the composition is not more than 7 vol.% In a methane-air mixture, complete prevention of ignition and explosion of methane-air mixtures of any composition is observed. It should be noted that the gas-air mixture with a methane concentration of 9.5-12.3 has the highest explosion energy. Adding even 2 vol. % of the composition prevents the danger of ignition and explosion of such mixtures, reducing the upper concentration limit to 5 vol.%, i.e. makes it safe, which is especially important when developing coal seams.

 The use of a composition containing 99% vol. Hexafluoropropane and only 1% vol. % AKAM in an amount of 1 vol.% Relative to the methane-air mixture, reduces the concentration limit of methane to 5% and makes the combustible mixture safe.

 The study of other compounds claimed in the formula, namely the use of 40-85.0% vol. Of chladones from the series trifluoromethane, trifluorochloromethane, trifluoroiodomethane, pentafluoroethane, heptafluoropropane, hexafluoropropane, perfluorohexane, octafluorocyclobutane, pentafluoroiodoethane in combination with 15-40 ppm. , mainly with propylene or butylene, or in combination with a saturated hydrocarbon, mainly with propane or butane, also showed high results, both to prevent ignition and explosion of hydrogen-air mixtures, to and methane-air mixtures.

 The results of the use of other compounds are presented in table 3 indicating the declared composition and the upper concentration limit for hydrogen and methane.

 As can be seen from the data presented in tables 1-3, the proposed composition is more effective than the known number of individual inhibitors, both to prevent ignition and explosion of hydrogen-air mixtures and methane-air mixtures.

 The inventive composition is particularly effective for preventing the explosion and ignition of methane-air mixtures and is completely safe when used in the lower concentration limit of hydrogen and methane.

 The inventive composition is non-combustible during storage, transportation and can be stored under normal conditions for a long time.

 The safety of the claimed composition and its high efficiency allow it to be used to prevent an explosion in mines both with a slow and fast methane supply, as well as in the production and use of hydrogen and methane.

Claims (3)

1. The composition for preventing ignition and explosion of combustible mixtures, mainly hydrogen and methane-air, comprising an inhibitor selected from the range of at least one hydrocarbon containing 2 to 8 carbon atoms in the molecule, characterized in that it additionally contains at least one fluorine-containing freon from the series trifluoromethane, trifluorochloromethane, trifluoriodomethane, pentafluoroethane, heptafluoropropane, hexafluoropropane, perfluorobutane, perfluorohexane, octafluorocyclobutane, pentafluoroiodoethane, mainly perfluorobutane, with the following the ratio of components, vol.%:
Inhibitor - 1 - 60
The specified fluorine-containing freon - 40 - 99
2. The composition according to claim 1, characterized in that it contains mainly 58.3 - 85% of the specified freon.  3. The composition according to any one of the preceding paragraphs, characterized in that it consists of a number of chladones mainly perfluorobutane.  4. The composition according to any one of the preceding paragraphs, characterized in that it as a hydrocarbon contains a mixture of saturated and unsaturated hydrocarbons, mainly propane, butane and propylene.

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