RU2201775C1 - Method for protecting rooms from fires and explosions - Google Patents

Abstract

FIELD: fire-fighting facilities. SUBSTANCE: method involves filling room with gaseous mixture with oxygen concentration below organic substance ignition threshold; supplying oxygen-depleted air, with oxygen depleted in gas-separating apparatus, in unsealed room and simultaneously removing oxygen-enriched air from room, with pressure of gaseous mixture in room being maintained equal to atmospheric pressure. EFFECT: simplified construction and reduced expenses for preventing rooms from fires and explosions by removing hermetic sealing of rooms and simplified blowing control. 6 cl, 1 dwg

Description

 The invention relates to methods and means for preventing fires and explosions.

 The most radical solution to the problem of explosion and fire safety is to exclude the possibility of the formation of combustible systems.

 Known methods for creating a fire in the gas area that does not support combustion. The latter is used in confined spaces (rooms, compartments, galleries, etc.), and inert gas diluents, chladones, powders and combined compositions based on chladones are usually used as quenchers.

There are also known methods for reducing the concentration of O ₂ due to dilution of air with non-combustible gases, for example, inert gases CO ₂ , N ₂ , Ar, etc. (Stavitsky M. G. "Firefighting on ships", Leningrad, "Shipbuilding", 1976, p. 213).

 There is, for example, a method for preventing fire in pressurized compartments, which consists in supplying nitrogen until excessive pressure is created in the compartment, while the relative oxygen concentration decreases to 13-14% (USSR author's certificate 955946, class A 62 C 2/00, 1982) .

 The disadvantage of these methods is the need for reliable control of the boost pressure and the tightness of the protected premises.

 The technical problem to which the invention is directed is to simplify and reduce the cost of the method for preventing fires and explosions in rooms by eliminating tightness and simplifying the control of boost.

 The problem is solved in that in the method of preventing fires and explosions in the premises, which consists in filling the room with a gas mixture with an oxygen concentration below the ignition limit of organic substances, oxygen is depleted to 10-14 vol.% Of atmospheric air by passing it through a gas separation apparatus, filling rooms with a gas mixture are produced by supplying oxygen-depleted air to an unpressurized room while simultaneously removing non-oxygen-depleted air from the room Nia, the pressure of the gas mixture in a room maintained at 0.001-0.01 bar.

 In the particular case, the supply of the gas mixture to the room with the simultaneous removal of air from the room is carried out continuously; or the supply of the gas mixture into the room with the simultaneous removal of air from the room is carried out at regular intervals, calculated on the basis of the air exchange conditions of the room.

 To ensure optimal working conditions in the protected premises with a simultaneous increase in the reliability of protection, the oxygen content in the gas mixture inside the room is continuously monitored and the gas mixture supply and air removal are controlled in accordance with the control results.

 Most often, the pressure of the gas mixture in the room is kept at atmospheric pressure, and the oxygen content in the gas mixture is 10-14 vol.%.

 In this case, the oxygen separating gas separation apparatus is a unit for the selective adsorption of gas mixture components or a unit with a gas separation membrane.

 The drawing shows a device for implementing the method.

 The method is based on the fact that at an oxygen concentration of 13-14 vol.% The combustion of most organic substances, in particular hydrocarbons, is impossible.

 In addition, it was found that air with an oxygen concentration of 10-12 vol.% Does not have an instant asphyxiating effect on humans.

 The method of preventing fires and explosions is as follows.

 By means of the compressor 1, atmospheric air is supplied to the gas separation apparatus 2, in which it is depleted of oxygen; Through valve 3 and a supersonic constriction device 7, oxygen-depleted air is supplied to room 6 through a receiver 5. In some cases, it may be possible to control valve 3 by a signal from an oxygen gas analyzer 8. Since the room is not sealed, atmospheric pressure is established in it. Supersonic flows of a gas inert mixture create the circulation of air in the room, with its simultaneous phlegmatization. In other words, the room is purged with a gas mixture depleted in oxygen.

 The gas separation apparatus is a unit for the selective adsorption of gas mixture components or a unit with a gas separation membrane.

Claims (6)

 1. The method of preventing fires and explosions in the premises, which consists in filling the room with a gas mixture with an oxygen concentration below the ignition limit of organic substances, characterized in that they deplete oxygen up to 10-14 vol. % of atmospheric air by passing it through a gas separation apparatus, filling the room with a gas mixture is done by supplying oxygen-depleted air to an unpressurized room while removing non-oxygen-depleted air from the room, and the overpressure of the gas mixture in the room is maintained equal to 0.001-0.01 atm.  2. The method according to claim 1, characterized in that the gas inert mixture is supplied into the unsealed room with cone-shaped supersonic jets uniformly distributed along the length of the room, the number of jets being determined from the condition that the jets are in contact at least not lower than the point at which the speed of the jet reaches a subsonic level .  3. The method according to claim 1, characterized in that the oxygen content in the gas mixture inside the room is continuously monitored and the gas mixture supply and air removal are controlled in accordance with the control results.  4. The method according to claim 1, characterized in that the gas mixture is supplied into the room while the air is removed from the room continuously.  5. The method according to claim 2, characterized in that the gas mixture is supplied into the room while the air is removed from the room at regular intervals, calculated on the basis of the room’s air exchange conditions.  6. The method according to any one of claims 1 to 5, characterized in that the oxygen separating gas separation apparatus is a device for the selective adsorption of gas mixture components or a gas separation membrane installation.