RU2095104C1 - Composition for extinguishing fires - Google Patents

Abstract

The disclosure relates to a method of extinguishing fires, a fire-extinguishing compound and a fire-extinguishing system. The proposed method involves the preparation of a fire-extinguishing composition containing an oxidant and a fuel-binder, placing the composition in the area of the seat of the fire, initiating a sustainable fuel oxidising reaction producing combustion products in finely dispersed aerosol form, and then allowing the aerosol medium to act on the seat of the fire. According to the invention, the compositions in the aerosol products of combustion act in the immediate area of the fuel oxidation reaction to reduce the level of toxins and lower the equilibrium temperature of complete oxidation of the fuel-binder combustion products. To achieve this, a reagent is introduced into the aerosol combustion products of the composition which promotes a reduction in the equilibrium temperature of the full oxidation reaction of the fuel-binder combustion products. The reagent used consists of thermal disintegration products of a low-energy supplementary fuel. Also proposed is a compound suitable for the proposed method. The system is provided with a reactor containing means for reducing the level of toxins in the area of combustion of the composition.

Description

 The invention relates to extinguishing agents and preventing the combustion of flammable liquids (LVH), combustible substances and materials in confined spaces.

Currently widely used in the world as a means of extinguishing fires of classes A, B and C: PSB-3 type powders; Freons 13 B ₁ and 114 B ₂ ; carbon dioxide. Freon consumption rates 0.2.0.25 kg / m ³ ; slightly higher carbon dioxide consumption. The consumption of powder PSB-3 is up to 0.5 kg / m ³ . Toxicity of extinguishing products (chladones, carbon dioxide), low fire extinguishing effectiveness; impact on the atmosphere (especially chladones) - the destruction of the ozone layer required the search for new means of extinguishing fires without these drawbacks.

 The known composition, which is described in international application N PCT / RU 92/00071 with priority from 04/08/91, including components in the following ratio, wt.

Alkali metal nitrate or perchlorate 55.90
Fuel Binder 10.45
It is proposed to use dicyandiamide in an amount of 1.42 wt.% As an additional fuel and cooler.

 The prototype of the invention for the greatest number of common features selected composition shown in example 3 of the materials of international application N PCT / RU 92/00071 with priority from 04/08/91. and consisting of potassium nitrate as an oxidizing agent, iditol (phenol-formaldehyde resin) as a combustible binder and dicyandiamide as additional fuel and taken at a ratio of 0.70 0.11 0.19.

 This composition is used to extinguish fires in closed rooms and forms an aerosol with a relatively high fire extinguishing efficiency and not having an ozone-depleting effect.

However, in a number of cases of practical application, additional requirements arise that cannot be solved when using this fire extinguishing composition due to its following disadvantages:
the high temperature of the gas-aerosol jet (or otherwise the temperature of the combustion products T _pr.sg. ) and its large extent;
a significant content in the products of combustion of the composition of products of incomplete oxidation of fuel, such as CO, NH ₃ , HCN, which is especially sharply enhanced when the composition is used in generators with additional cooling units with an outlet temperature of less than 150 ^o C and practically eliminates the possibility of creating “cold” generators aerosol based on this composition;
the inability to produce bulky charges.

 These disadvantages are due to the nature of the components used and the excessive content of combustible substances in the composition, which leads to incomplete oxidation of the decomposition products of the combustible binder and additional fuel due to insufficient oxygen of the oxidizing agent; and their further oxidation or afterburning due to atmospheric oxygen leads to the formation of an extended high-temperature jet.

The problem to which the invention is directed, is to increase the fire extinguishing efficiency of the composition (C _g , g / m ³ ), lower the combustion temperature (T _g , C) and improve the toxicological characteristics of the combustion products (maximum reduction in the content of CO, NH ₃ , HCN).

 The essence of the invention is the use as a combustible binder of 4-hydroxybenzoic acid or a mixture of 4-hydroxybenzoic acid and phenol-formaldehyde resin, or a mixture of 4-hydroxybenzoic acid and epoxy resin, or a mixture of 4-hydroxybenzoic acid, epoxy and phenol-formaldehyde resins, or a mixture of phenol-formaldehyde and epoxy resins; as an oxidizing agent of cadmium nitrate, or sodium nitrate, or potassium perchlorate, or sodium perchlorate or mixtures thereof; as a cooler of dicyandiamide, or melem, or melamine, or urea, or urotropine, or azobisformamide (HDA), or mixtures thereof in the following ratio of components, wt.

Combustible binder 1.5.18.0
Cooler 5.0.20.0
Oxidant Else
using additional technological additives and combustion catalysts CuO, Fe ₂ O ₃ , K ₂ Cr ₂ O ₇ , ZnO, MnO ₂ in an amount up to 5 wt.

 The use of 4-hydroxybenzoic acid or a mixture of 4-hydroxybenzoic acid and phenol-formaldehyde resin, or a mixture of 4-hydroxybenzoic acid and epoxy resin, or a mixture of 4-hydroxybenzoic acid, epoxy and phenol-formaldehyde resins, or a mixture of phenol-formaldehyde and Epoxy resins are offered for the first time.

 The introduction of the above components (4-hydroxybenzoic acid, etc.) and their various combinations made it possible to significantly intensify the combustion process of the compositions and, accordingly, increase the removal of the condensed part of the gas-aerosol mixture formed during combustion, which led to an increase in the extinguishing efficiency of the compositions. When the content is less than 1.5 wt. of the proposed options for a combustible binder, the composition ceases to burn practically (see sample No. 15 of the table), and with the introduction of more than 18.0 wt. the extinguishing effectiveness of the composition is reduced (see sample N 16 table.). Thus, the limit of introduction of the proposed combustible binders is 1.5.18.0 wt.

 The use of 4-hydroxybenzoic acid or a mixture of 4-hydroxybenzoic acid and phenol-formaldehyde resin, or a mixture of 4-hydroxybenzoic acid and epoxy resin, or a mixture of 4-hydroxybenzoic acid, phenol-formaldehyde and epoxy resins, or a mixture of phenol-formaldehyde and epoxy resins significantly reduced the combustion temperature of the compositions (see, for example, samples 1, 2, 3, etc., table).

The introduction of potassium, sodium nitrate, potassium perchlorate, sodium or mixtures thereof, the combustible binder of which are 4-hydroxybenzoic acid, or a mixture of 4-hydroxybenzoic acid and phenol-formaldehyde resin, or a mixture of 4-hydroxybenzoic acid and epoxy resin, or a mixture of phenol-formaldehyde and epoxy resins, or a mixture of 4-hydroxybenzoic acid, phenol-formaldehyde and epoxy resins, and as coolers dicyandiamide, or melem, or melamine, or urea, or urotropin, or GDA or a mixture thereof allowed in the products of combustion of compounds l high content of solid particles of the type K ₂ O, Na ₂ O, KOH, K ₂ CO ₃ , Na ₂ CO ₃ , KCl, which led to a significant increase in the extinguishing efficiency of the aerosol component of the combustion products of the compositions. In addition, the use of these oxidizing agents allows to increase the content of inert gases N ₂ and CO ₂ in the products of combustion, which further increases the fire extinguishing efficiency of the compositions and improves the toxicological properties of the products of combustion.

 It has been experimentally shown that the ratio of oxidizing agents can be different. The relationship only affects the direction of application of the compounds. Thus, with an increase in the fraction of chlorides in the aerosol, the composition better extinguishes a class A fire and, with a higher content, can be used for class D fires.

 The possibility of using several oxidizing agents expands the raw material base for the production of fire extinguishing compounds.

The use of dicyandiamide or melem, or melamine, or urea, or urotropine, or HDA or mixtures thereof in coolers containing the combinations of substances proposed above as a combustible binder allows to achieve simultaneously fire extinguishing efficiency, lower combustion temperature and more complete oxidation of combustible components, i.e. reduction of toxicity of combustion products (reduction in the content of CO, NH ₃ , HCN in combustion products).

 Another extremely positive property of the compositions, which they obtain when using various combinations of an epoxy resin as a fuel binder, for example, with phenol-formaldehyde resin, or about 4-hydroxybenzoic acid, increases the cohesive interaction of the particles of the compositions, and it becomes possible to manufacture large items up to 100 kg (prototype up to 1.0 kg). The strength of the products also increases significantly.

To ensure the required level of rheological characteristics, it is possible to add traditional technological additives to the composition, and to improve the toxicological characteristics of combustion products (decrease in the content of CO, HCN, NH ₃ ), it is also possible to introduce catalytic additives from the series CuO, MnO ₂ , Fe ₂ O ₃ , ZnO, K ₂ Cr ₂ O ₇ in an amount up to 5 wt.

 The proposed technical solution is illustrated by examples of the preparation of compositions.

 Example 1. Composition, wt.

Potassium Nitrate 68
4-hydroxybenzoic acid 17
Urea 15
68 g of potassium nitrate, 17 g of 4-hydroxybenzoic acid, 15 g of urea are introduced into the mixer. The mixture is stirred for 1 hour. From the resulting mass by the method of "dead" pressing at a specific pressure of 1500 kg / cm ² molded products of the desired geometric shape.

 Example 2. Composition, wt.

Epoxy 5
Potassium Nitrate 70
4-hydroxybenzoic acid 10
Dicyandiamide (DCDA) 14
Industrial oil 1
70 g of potassium nitrate, 10 g of 4-hydroxybenzoic acid, 14 g of DCDA are introduced into the mixer and the mixture is stirred for 10.15 minutes. Then enter the epoxy resin-5 g in a solution of acetone (module 2. 3%) and 1 g of technological additives (in this example, industrial oil). The mass is stirred for 15.20 minutes. From the resulting mass, a product is molded in a hydraulic press at a specific pressure of at least 1000 kg / cm ² , which is then cured for 24 hours at 40.50 ^o C.

 Example 3. Composition, wt.

Cadmium Nitrate 60
Sodium Nitrate 8
4-hydroxybenzoic acid 9
Phenol formaldehyde resin 8
Dicyandiamide (DCDA) 12
CuO 2
Ftoroplast-4 1
The manufacture is analogous to example 1.

Evaluation of fire extinguishing efficiency (C _t , g / m ³ ), combustion temperature (T _g , ^o C), and the content of CO, HCN, NH ₃ in the products of combustion were carried out on samples made by the method of "deaf" pressing.

An experimental check on the fire extinguishing effectiveness of the compositions was carried out according to the following procedure. In a closed volume of 0.04 m ^{3, a} sample of the test composition was burnt. After distribution of the aerosol mixture over a volume of 60 s, a burning sample of polymethyl methacrylate (plexiglass) was introduced into it. Having conducted a series of experiments with various amounts (weigheds) of the studied composition, we determined its minimal weighed amount, during the burning of which the independent burning of organic glass in the volume lasted no more than 1 о. Dividing the obtained value of the minimum sample by volume, we found the minimum extinguishing concentration of the test composition.

 The combustion temperature of the compositions was measured by the contact thermoelectric method using chromel-alumel thermocouples. The junction diameter of thermocouples was 100 μ km.

The analysis of the content of toxic products of CO, HCN, NH ₃ in the combustion products of the compositions was carried out on a chromatograph with a thermal conductivity detector (DTP). The chromatographic column is glass, packed, its length is 2.4 m, internal diameter is 2.5 mm. The column was filled with a zeolite of fraction 0.14.O, 25 mm. The speed of the carrier gas (helium) 30 cm ³ / min. Column temperature 32 ^o C. Dose volume 1 cm ³ . Chromatograms were recorded with a TC-4601 recorder.

 The obtained experimental results are shown in the table.

Analysis of the data given in the table shows that
the compositions are superior to the prototype in fire extinguishing efficiency;
the compositions have a lower combustion temperature than the prototype;
the combustion products of the compositions have better toxicological characteristics (lower content of CO, HCN, NH ₃ ) than the prototype;
The selected limits for all ingredients are well reproducible and effective.

 Thus, the use of the invention will significantly reduce the mass of the composition needed to eliminate the fire, and accordingly the mass of the entire fire extinguishing system, which is especially important when ensuring fire safety of mobile vehicles.

 In addition, it becomes possible to create fire extinguishing aerosol generators using additional cooling units, which greatly expands the list of objects for the use of devices of this type. The high purity of the combustion products of the proposed compositions allows us to recommend them for use at facilities that are served by people.

 The economic effect in the production of the composition at this stage of the work was not determined due to the lack of some initial data and the specifics of its scope.

Claims (3)

 1. A composition for extinguishing fires containing an oxidizing agent, a combustible binder and a cooler, characterized in that it contains 4-hydroxybenzoic acid, or a mixture of 4-hydroxybenzoic acid and phenol-formaldehyde resin, or a mixture of 4-hydroxybenzoic acid and epoxy, as a combustible binder or a mixture of phenol-formaldehyde and epoxy resins, or a mixture of 4-hydroxybenzoic acid, phenol-formaldehyde and epoxy resins in the following ratio of components, wt. Combustible binder 1.5 18.0
Cooler 5.0 20.0
Oxidant Else
2. The composition according to claim 1, characterized in that as an oxidizing agent it contains potassium nitrate, or sodium nitrate, or potassium perchlorate, or sodium perchlorate, or mixtures thereof.  3. The composition according to PP.1 and 2, characterized in that as a cooler it contains dicyandiamide, or melem, or melamine, or urea, or urotropine, or azobisformamide (GDA), or a mixture thereof.  4. The composition according to PP.1 to 3, characterized in that it further comprises technological additives and combustion catalysts in an amount of 0.1 to 5.0 wt.

Images