RU2158150C1 - Fire localizing and extinguishing method - Google Patents

Abstract

FIELD: fire-fighting method. SUBSTANCE: method involves acting upon fire zone by fire-suppressing aerosol substance produced in the process of explosion of industrial explosive substance. Aerosol produced in the process of explosion contains 50-60% wt of finely dispersed flame suppressor (NaCl), which intensifies inhibition of reaction in flame. Method allows extensive fire, for instance forest fire, to be suppressed. EFFECT: increased efficiency and provision for ecologically clean suppression of fire of any kind. 1 tbl

Description

 The invention relates to the field of creating methods and means designed to prevent fires or to contain fire.

 Currently, the most versatile fire extinguishing agents used to extinguish any type of fire and electrical installations under voltage are fire extinguishing powders based on carbonates, phosphates, alkali metal chlorides.

 One of the most promising means of volumetric fire extinguishing is a system that uses special aerosol-generating compounds.

The essence of the method of extinguishing the flame in this case is to inhibit and terminate the chain reaction of combustion in the tribal zone. Known compositions based on gunpowder, generating an inhibitory aerosol. (Journal of Dual Technologies, N 2, 1999, p. 28, Russian Academy of Engineering, section "Engineering Problems of Stability and Conversion"). These compositions have a number of advantages in terms of performance compared to regular means, for example, freons and fire extinguishing powders:
- in inhibitory ability, they are no less than 5 times higher than the best inhibitory freons, primarily due to activation in the flame zone of the inhibitor, which is used, as a rule, compounds of elements of the first group that are easily excited at elevated temperatures (KNO ₃ , etc. )
- relatively low toxicity;
- low cost;
- constant readiness for action, etc.

 There is also a method of extinguishing large-scale (forest, etc.) fires using the energy of an explosive. Explosive methods can create mineralized fire strips in the forest by laying explosives in holes or laying out explosive compositions in the form of hose charges (Orlov OK, Kustov Yu.V. Elastic drill holes for fighting forest fires - In: “Forest fires - fighting with them ", LenNIIHL, 1986).

 These explosive methods are very effective, but very laborious and unsafe.

 Combined extinguishing systems are known whose main principle of operation is the spreading of an inert extinguishing agent as a result of an explosive explosion available in a structure (A.S. N 1266549, class A 62 C 3/00, 1985, A.S. N 1400619, class A 62 C 1/22, 1986).

 These methods of localization and extinguishing fires are based on the fact that explosive charges are delivered to the fire in the form of a composite system of elements. The composite system is arranged in the form of bundles of elements with a fire extinguishing composition located around the central explosive element.

 However, the experience of developing compositions of safety explosives, the explosion products of which have high flame-retardant properties, indicate that the introduction of flame-retardant components directly into the composition of the explosive is more rational and effective. This ensures a better distribution of phlegmatizers in the composition and significantly increases the degree of safety in the handling of explosive materials. Created effective flame retardant compositions and original design solutions of fire extinguishing systems have received wide and effective application. However, they are insufficient to effectively and quickly suppress large-scale (forest, etc.) fires.

 The closest in technical essence and the achieved result is the FIRE FIGHTING METHOD according to patent N 2005516, IPC A 62 C 2/00, 1994. This method provides for extinguishing fires with a fire-extinguishing composition formed by aerosol from solid and gaseous phases obtained by burning special compositions containing 13 , 5-20% of a polymer binder based on rubbers and 70-82% of an oxidizing agent of potassium nitrate or potassium perchloride, or a mixture thereof.

 This method is adopted as a prototype. The combustion products of such compositions contain 40-45% by weight of potassium compounds, which are mainly in a gaseous state. This circumstance contributes to an intense inhibitory effect on reactions in a flame.

Fuel consumption for extinguishing wood is 0.03-0.06 kg / m ³ . The time (duration) of the supply of extinguishing aerosol - the period of time from the beginning to the end of the expiration of the extinguishing aerosol from the outlet of the extinguishing aerosol generator (GOA) is from 5 to 200 seconds.

 The disadvantages of this method include its unsuitability for effective and rapid suppression of large-scale (forest, etc.) fires.

 The objective of the invention is to develop an effective and quick way to suppress large-scale fires.

The problem is solved due to the fact that in the known method of localizing and extinguishing fires, including exposing a fire extinguishing composition to an outbreak formed by an aerosol from solid and gaseous phases, the aerosol is obtained during the explosion of a high-safety explosive containing ammonium nitrate, sodium chloride or potassium chloride, dinitrophenoxyethanol or trinitrotoluene in the following ratio of components, wt.%:
Ammonium Nitrate - 31 - 44
Dinitrophenoxyethanol or Trinitrotoluene - 6 - 9
Sodium chloride or potassium chloride - 50 - 60
The table shows the composition of the combustion products of various layout options for industrial explosives, their characteristics, as well as the characteristics of samples containing components beyond the stated ratio.

 The layout of the explosive flame retardant composition was based on the basic principles of creating explosive class safety class. The main components of the composition are various combinations of oxidizing agents with flammable substances and flame arresters. The composition must be well balanced in oxygen so that it is possible to more fully utilize the potential energy potential inherent in the mixture and to ensure the release of a minimum amount of combustible unoxidized explosion products prone to oxidation and free oxygen. The excess coefficient of the oxidizing agent (α) of the initial composition is provided at the level of 0.9 - 1.1.

From the data given in the table, it follows that the aerosol formed during the explosion consists of various inert gases (H ₂ O, N ₂ , etc.) and condensed particles, which are mainly alkaline metal compounds. Decomposition products contain 50-60% by weight of a finely dispersed flame arrester (sodium compounds). This circumstance contributes to an intense inhibitory effect on reactions in a flame.

 The delivery time of the extinguishing aerosol is a fraction of a second, which is a great advantage compared to the prototype.

 In laboratory conditions, ~ 200 kg of high-explosive explosive was manufactured, and in the enterprise, the damping capacity of high-explosive industrial explosive explosive products was evaluated.

The burning wood has been extinguished. The consumption of PVC during the extinguishing of wood is 0.07-0.08 kg / m ³ .

According to the directory "Fire and explosion hazard of substances and materials and their extinguishing agents" edited by A.N. Baratova and A.L. Korolchenko. - M .: Chemistry, 1990 with volume extinguishing of fires of LVH and wood, carbon dioxide is consumed - 0.7 kg / m ³ ; Freon 114 V ₂ 0.22-0.37 kg / m ³ ; powder products 0.27-0.4 kg / m ³ .

 The advantages of the proposed fire extinguishing method are its versatility for extinguishing any type of fire; the possibility of obtaining samples of various sizes; ecological purity of combustion products; conversion of defense industries.

Claims (1)

A method for localizing and extinguishing fires, including exposing a fire extinguishing composition to an outbreak formed by an aerosol from solid and gaseous phases, characterized in that the aerosol is produced during the explosion of a high-safety industrial explosive containing ammonium nitrate, sodium chloride or potassium chloride and dinitrophenoxyethanol or the following trinitrotoluene the ratio of components, wt.%:
Ammonium Nitrate - 31 - 44
Sodium chloride or potassium chloride - 50 - 60
Dinitrophenoxyethanol or Trinitrotoluene - 6 - 9