RU2026697C1 - Method of manufacture of fire extinguishing mixture - Google Patents

Abstract

FIELD: fire fighting. SUBSTANCE: azodicarbonamide is mixed with zinc oxide and carboxylic acid, with zinc oxide-to-carboxylic acid ratio being 1: 1 by mass and their total amount in mixture, from 10 to 30%. Prepared mixture is mixed with fire extinguishing powder in the following ratio: fire-extinguishing powder - 80-97% and mixture of aerodicarbonamide with zinc oxide and carboxylic acid - 3-20%. Mixture is placed in vessel and the latter is soldered up. EFFECT: enlarged operating capabilities. 1 tbl

Description

 The invention relates to fire extinguishing means for solid and liquid combustible materials, intended for fire protection of pantries, construction, household, retail stalls, cabinets with electrical equipment, hard-to-reach sections of cable galleries, etc. Fires in such rooms, as a rule, quickly develop and lead to complete the destruction of material assets.

 The use of automatic fire extinguishing systems (powder, chladonic, water-based) that can eliminate fire is unprofitable due to the high cost of equipment and alarms (mechanical tanks and communications, sensors and remotes, etc.).

 A known method of manufacturing a fire extinguishing agent, including the introduction into a glass vessel of a fire extinguishing water composition and its sealing. The extinguishing agent is a solution of inorganic salts: potassium alum, sodium and calcium chlorides, ammonium, sodium, magnesium and calcium carbonates [1] or potassium nitrate [2].

 The extinguishing agent is placed under the ceiling of the protected room, in the event of a fire under the influence of high temperatures and increased pressure of superheated water and gases released from the composition of the vessel, the vessel is destroyed, and the composition is sprayed and extinguishes the flame. Extinguishing is carried out independently, without extraneous drive into operation and human intervention at the minimum cost of fire protection of premises. However, when using aqueous compositions, the extinguishing efficiency of this extinguishing agent is insufficient, the inertia of the response is high (the time from the occurrence of the fire source to the moment of destruction of the vessel).

In the proposed method, as a fire extinguishing material, a mixture of azodicarbonamide with zinc oxide and carboxylic acid is used with a ratio of the latter 1: 1 and their total amount in a mixture of 10-30 wt.% And fire extinguishing powder, which are poured into a vessel at a ratio, wt.%: Fire extinguishing powder 80-97 A mixture of azodicarbonamides with zinc oxide and carboxylic acid 3-20
As a carboxylic acid, acids with a carbon number of 1-4 are used.

 The method is as follows.

 Azodicarbonamide is mixed with zinc oxide and formic (acetic, etc.) acid, then the resulting mixture and fire extinguishing powder (PSB-3 or Pirant A) are poured into a glass vessel and sealed.

In a chamber with a volume of 80 dm ³ , a metal baking sheet with an area of 0.048 m ^{2 is} placed, into which sawdust is poured with a layer height of 2 cm. Then 300 ml of heptane is poured. A glass sealed vessel with the test composition is installed in the upper part of the chamber using the holder. The heptane was set on fire, as a result of heating, the vessel self-activated and the composition was thrown out to extinguish.

 PRI me R. 90 g of azodicarbonamide, 5 g of zinc oxide and 5 g of acetic acid were mixed. 2.4 g were taken from the resulting mixture, and 9.6 g of the PSB-3 powder was poured into a glass vessel, which was sealed. The response time of the vessel after ignition of heptane in the chamber was 35 s. Other examples are presented in the table (paragraphs 2-4). The total weight of the extinguishing composition in all these experiments was 12 g, and for the composition according to the prototype (item 1), the minimum weight at which quenching was achieved was -20 g.

 With the introduction of components within the proposed range, the response time decreased ≈ 4 times compared with the prototype, and the extinguishing efficiency increased ≈ 7 times.

 The proposed method is simple to implement. It is supposed to be used to protect cabinets with electrical equipment, construction change houses, trading booths, etc.

 The application of the proposed method provides significant economic benefits compared to traditional gas, powder and water-based expensive automatic fire extinguishing installations. A decrease in the inertia of the response compared to the prototype ≈ 4 times can significantly reduce the damage from the fire and facilitate its elimination in the initial stage.

Claims (1)

1. METHOD FOR PRODUCING AN EXTINGUISHING AGENT, including introducing and sealing a fire extinguishing material into a glass vessel, characterized in that a mixture of azodicarbonamide with zinc oxide and carboxylic acid is used as an extinguishing agent in the ratio of the latter 1: 1 and their total amount in the mixture is from 10 to 30 wt.% And fire extinguishing powder, which fall asleep in a vessel in the following ratio, wt.%:
Extinguishing powder - 80 - 97
A mixture of azodicarbonamide with zinc oxide and carboxylic acid - 3 - 20
2. The method according to claim 1, characterized in that the acid with the number of carbon atoms 1 to 4 is used as a carboxylic acid.

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