WO2019117745A1 - Fire-extinguishing composition - Google Patents

Abstract

The invention relates to fire-fighting and can be used for extinguishing fires in residential and industrial facilities of civilian and military use, natural crown and surface forest fires, brush and grass fires, and peat fires, as well as for protecting fire-fighters and the civilian population from the effects of fire and high temperature. The technical result of the invention is to raise the fire-retardant and fire-extinguishing properties while lowering the consumption of a fire-extinguishing composition. The present fire-extinguishing composition comprises a composite nanomaterial and water, with a ratio of composite material and water of from 1:20 to 1:500, wherein the composite nanomaterial comprises a nanomaterial powder and a stabilizer with the following ratio of components: 0.1-5 wt% nanomaterial, and 95.0-99.9 wt% stabilizer.

Description

 FIRE EXTINGUISHING COMPOSITION

 TECHNICAL FIELD

 The invention relates to fire suppression and can be used to extinguish civilian and military residential and industrial facilities, natural riding and lower forest fires, undergrowth and pasture fires, peat fires, as well as to protect firefighters and civilians from the effects of fire and heat.

 BACKGROUND

 Known igniting composition, disclosed in EN 2209645 C2, publ. 08/10/2003. The extinguishing agent includes a halocarbon, an aqueous dispersion stabilizer and water, while ethyl bromide is used as a halocarbon, tall oil pitch is used as stabilizer and ammonium hydroxide is used in the following ratio, wt.%: Ethyl bromide - 10-20; tall pitch - 0.1-0.2; ammonium hydroxide - 0.45-1, 0; water - the rest

 The disadvantage of the extinguisher is a small fire extinguishing capacity and low efficiency.

 A known fire extinguishing additive to water is Ferorsor "® (prototype) containing in May.%: A super absorbent polymer - 28; biodegradable oil - 23; Surfactant - 6; water - 43 (FI Lobanov." Application of Polymer Additives to Increase Efficiency of Fire Extinguishing " Journal of Eco, M .: 2005, Ns. 3, p. 36)

 The disadvantages of fire extinguishing additives are: high viscosity of the compositions, excluding the possibility of use in regular fire fighting equipment; the inability to increase the thermal conductivity of fire extinguishing compositions; the instability of the system after partial evaporation of water and the lack of a guaranteed renewal of all its properties after its addition; the inability to form a sufficient amount of fire extinguishing agent directly in extinguishing a fire by mixing water from available sources of water supply and products offered; restrictions on the storage conditions of products.

 DISCLOSURE OF INVENTION

 The objective of the claimed invention is to increase the fire extinguishing efficiency of water, usually used in fire fighting, to reduce the time and, consequently, increase the efficiency of fire fighting.

 The technical result of the invention is to increase the flame retardant and fire extinguishing properties while reducing the consumption of fire extinguishing composition.

This technical result is achieved due to the fact that the fire extinguishing composition contains composite nanomaterial and water, with a ratio of composite material and water from 1: 20 to 1: 500, and composite nanomaterial contains nanomaterial powder and a stabilizer, with the following ratio of components in May. %:

 nanomaterial - 0, 1-5.0;

 the stabilizer is 95.0-99.9.

 IMPLEMENTATION OF THE INVENTION

 To obtain a fire extinguishing composition containing composite nanomaterial and water, with a ratio of composite material and water from 1: 20 to 1: 500, and the composite nanomaterial contains nanomaterial powder and a stabilizer, in the following ratio of components in May. %:

 nanomaterial - 0, 1-5.0;

 the stabilizer is 95.0-99.9, mixing is carried out in the mixer in the required amounts of the stabilizer and the solid dispersed phase - nanomaterial powder, which is added to the mixer in batches. After the completion of mixing, the obtained uniformly mixed composite nanomaterial “Firelock” ® is transferred to the packing stage. To obtain the fire-extinguishing composition “Firelock” ®, the composite nanomaterial is mixed with water in the required amounts.

 The declared fire extinguishing composition "Firelock" ® is a combination of powder nanomaterial, a stabilizer and water, forming together a nanofluidic composition used in fire fighting and fire protection.

 The Firelock ® brand is registered in the Russian Federation.

 The resulting fire extinguishing composition "Firelock" ® is essentially a water-dispersed nanofluidic composition that is resistant to both sedimentation (precipitation of nanoparticles) and to evaporation of the aqueous phase, which is effective when used with any fire extinguishing agents: fire engines; fire fighting aircraft; conventional fire extinguishers; backpack fire extinguishers; Pumps

 Powder nanomaterial, which is included in the fire-extinguishing composition “Firelock” ® as a dispersed phase, has a particle size of from 10 to 10,000 nm, one of or a combination of two, three or more inorganic substances from the following list:

 1) simple inorganic substances, namely boron, carbon, in one of or a combination of two, three or more of its allotropic modifications, silicon, metals of 3-4 groups of the periodic system of elements D.I. Mendeleev.

2) complex inorganic substances, namely boron carbide, boron nitride, boron silicide, silicon carbide, silicon nitride, silicon arsenide, as well as belonging to the class of oxides, sulfides, selenides, tellurides, oxosulfides, oxoselenides, nitrides, phosphides, arsenides, antimonides , carbides, silicides or borides of metals of groups 3-14 of the periodic table of elements D.I. Mendeleev. The stabilizer included in the Fireball® fire extinguishing composition is one of or a combination of two, three or more substances from the following list:

 1) homopolymer acrylic acid in neutral or anionic form with a degree of ionization not exceeding 80%.

 2) a heteropolymer of acrylic acid in neutral or anionic form with a degree of ionization not exceeding 80%, containing at least one co-monomer or their combination selected from the group of acrylamide, acrylonitrile, methyl acrylate, ethyl acrylate, propyl acrylate comonomers , methyl methacrylate, ethyl methacrylate, N-vinylpyrrolidone, maleic anhydride or styrene.

 The water that enters as a liquid phase in the fire-extinguishing composition Fireline® can be used from centralized sources of fresh water supply, from natural reservoirs, as well as mineral, mineralized water containing up to 2% soluble salts.

 Example

 The method of preparation of a uniformly mixed composite material "Firelock" ®.

 In a paddle mixer with a volume of 200 liters, 99 kg of a homopolymer of acrylic acid with a degree of ionization of 60% are placed, the hatch is closed and the stirring mode is activated at a speed of 30 revolutions per minute. Through an additional hatch with the aid of a funnel for bulk substances, 1 kg of a nano-material of silicon oxide having a particle size of 20-30 nm is introduced in portions within 10 minutes. After making all the nanomaterial, the mixing speed is increased to 120 revolutions per minute and continue mixing for 10 minutes. Thus obtained uniformly mixed composite material "Firelock" ® is passed to the packaging stage.

 The method of preparation of fire extinguishing composition "Firelock" ® (composition No. 4, Table 1).

 In the city fire tanker АC-2,0-40 in the filled state (2000 liters of water) pour 20 kg of the uniformly mixed composite material “Firelock” ® through the upper hatch (2 bags of 10 kg each). Sufficient mixing is carried out while driving the tanker for 10 minutes. Firewall® Fire Extinguishing Compound is ready to use.

 Examples of compositions fire extinguishing composition "Firelock" ® are shown in Table 1.

As experiments have shown, the claimed Fire Extinguisher “Firelock” ® within the stated ranges of component maintenance multiplies the fire extinguishing capacity of water many times and also prevents the burning of surrounding objects, such as residential buildings and other structures, as well as trees and shrubs. It turns out to be applicable for extinguishing fires in residential and industrial facilities. civil and military purposes, natural high and low forest fires, undergrowth and pasture fires, peat fires, as well as to protect firefighters and civilians from the effects of fire and heat.

 An important distinctive feature of the fire extinguishing solution based on the composition of Firelock® is that, when applied to clothing and an open body, it forms a reliable protection against burns even when the fire is in the epicenter at temperatures of 700 ° C and above, which is confirmed by tests on a thermal manikin VNIIPO MES RF.

 Improving the efficiency of fire extinguishing with the help of fire extinguishing composition "Firelock" ® is characterized by the fact that it repeatedly increases the speed of extinguishing; eliminates the risk of re-ignition; mixes easily with water and does not clog, does not clog channels of sprayers; when feeding through fire hoses, it reduces friction and allows throwing a jet 10% -15% further than water; does not corrode metals and other materials; non-toxic and environmentally friendly, incl. when ingested after extinguishing the fire is washed off with ordinary water.

 Fireball® fire extinguishing composition is economically efficient and requires less equipment, less water and less manpower to fight fires. The tests showed that it takes 250-500 liters to extinguish one car, and in some cases 200 liters of Fireerlock® fire extinguishing compound, which are usually 2-4 kg of Firewall dry powder, is enough; An ordinary fire engine spends up to 1.5 tons of water for similar purposes.

 The fire extinguishing composition "Faerlock" ® allows you to save transportation costs compared to other fire extinguishing agents, has a shelf life of 10 years, without requiring special storage conditions. The fire extinguishing composition "Firelock" ® is much longer resistant to both heated surfaces and to open flame as compared to foam. Foam, in contrast to Firelock®, cannot be used as a pre-applied fire protection agent either on residential buildings, structures, trees and shrubs, much less on a human body.

The invention has been disclosed above with reference to a specific embodiment. Other embodiments of the invention that do not change its essence as disclosed in the present description may be obvious to those skilled in the art. Accordingly, the invention should be considered limited in scope only by the following claims.

Claims

CLAIM

 1. An extinguishing agent containing a composite material and water, with a ratio of composite material and water from 1: 20 to 1: 500, and the composite material contains a powder of material and a stabilizer, with the next ratio of components in May. %:

 nanomaterial - 0.1 -5.0;

 the stabilizer is 95.0-99.9.

 2. The composition according to claim 1, characterized in that the size of the particles of the nanomaterial is in the range of 10-10000 nm.

 3. The composition according to p. 1, characterized in that the stabilizer used is a homopolymer of acrylic acid in neutral or anionic form with a degree of ionization not exceeding 80%.

 4. The composition according to claim 1, characterized in that the stabilizer used is an acrylic acid heteropolymer in neutral or anionic form with a degree of ionization not exceeding 80%, containing at least one co-monomer or a combination of them, from the group: acrylamide, acrylonitrile, methyl acrylate, ethyl acrylate, propylacrylate, methyl methacrylate, ethyl methacrylate, N-vinylpyrrolidone, maleic anhydride or styrene co-monomers.

 5. The composition according to p. 1, characterized in that the water quality used fresh water from centralized sources of water supply, water from natural waters, mineral or mineralized water, salt water, containing up to 2% soluble salts.