RU2484862C1 - Method of protection object from fire hazard - Google Patents

Abstract

FIELD: fire-prevention facilities.

SUBSTANCE: invention relates to non-contact methods of protection of an object from fire hazard and/or fire extinguishing by means of generated electric field. The method of protection of an object from fire hazard with automated stationary fire extinguishing system, which comprises a control unit, fire detection means and unit of generating the working electric field and two oppositely charged electrodes. The system is connected to a power source, brought into a state of expectation of the fire risk and maintain constant monitoring of security. In recording the combustion in automatic mode, the information is received about the location and extent of combustion, after which the electrodes of the corresponding unit which is located at the place of combustion, high voltage is applied. The working electric field is generated and the flame is affected with it until his complete disappearance. The process is conducted using a system configured with the ability to control high voltage which is applied to the electrodes. The opposite electrodes are arranged in two opposite or in two adjacent to each other planes of areas of the protected object. The shape of the electrodes and the technological gap h between them is determined on the basis of the conditions for obtaining the electromagnetic field screen, which affects simultaneously on the entire amount of the flame. The amount of the applied high voltage is selected from the range of values that is defined for specifically established value of interelectrode technological gap h, which eliminates the possibility of property damage both from the fire itself and from the consequences of its suppression.

EFFECT: improving the effectiveness of protection.

2 cl, 3 dwg

Description

The invention relates to the field of fire extinguishing, more precisely, to non-contact methods of protecting an object from fire hazard and / or fire extinguishing by means of a generated electric field, it is intended primarily for use on important strategic, energy, etc. facilities, as well as to prevent fire and extinguish fires in residential buildings and other buildings and structures, including at manufacturing enterprises.

Traditionally used contact methods for protecting various objects from fire hazard are known, based on the placement of fire hazard control sensors (smoke, open flame, etc.) inside protected objects and the inclusion of fire suppressants spraying systems when activated: powder, foam, gaseous or any other type (for example, RU 2368409, 2009). These methods have a common drawback for them, namely that the material damage from the contact of fire suppressants with the property of an object often exceeds the damage from fire.

Also known is a more gentle (without the use of fire suppressing means) contactless fire extinguishing method based on exposure to a flame of a flame generated by a high-voltage electric field and carried out using a mobile fire installation containing a vehicle, an electric power source, a DC-voltage converter, a drive - a high-voltage capacitor - and a device supply of a positively charged electrode into the flame zone, the plasma of which acts as a negatively charged electro yes (RU 69754, 2006).

The disadvantage of this method is the low efficiency of fire extinguishing, due to the likelihood of contributing to the growth of the fire, temporary losses spent on the delivery of the used installation to the place of ignition and on the installation of the installation for carrying out the fire extinguishing process. In addition, as is obvious, due to the mobile type of installation used, this method is unsuitable for providing preventive protection of the facility from fire hazard.

The closest analogue (prototype) of the proposed method is a method of protecting an object from fire extinguishing, implemented using an automatic stationary fire extinguishing system placed in / on the object, containing a control unit, ignition registration means distributed around the object’s perimeter or volume, and a node or a complex of nodes for generating a working electric field with a voltage converter and two oppositely charged electrodes each, in which the system is connected to a power source, lead to the state of fire hazard waiting and they constantly monitor the safety of the facility, and when the fire detection means are activated, they automatically receive information about the location and amount of ignition, after which high-voltage voltage is applied to the electrodes of the corresponding unit or group of nodes located at the place of ignition, and a working electrical voltage is generated field and they affect the torch until it disappears completely (EP 0436487 A1, 02.01.91).

In the prototype, the generated working electric field acts only on the base of the flame, and not on the entire flame, which leads to some decrease in the efficiency of extinguishing the flame, since the combustion reaction covers the entire volume of the flame, therefore, to increase the extinction efficiency, an extinguishing agent is additionally introduced into the flame a substance that increases the cost and complicates the process. In addition, the prototype does not provide for technological regulation of the magnitude of the high voltage supplied to the electrodes, depending, for example, on the interelectrode gap, which would contribute to a rational consumption of power.

The task carried out by the invention is aimed at developing such an effective method of preventive protection of various objects from the danger of fire, which would eliminate the likelihood of material damage both from the fire itself and from the consequences of extinguishing it.

The technical result obtained by the implementation of the invention is to increase the technical and economic efficiency of the process of detecting and extinguishing a fire.

To achieve a technical result in a method of protecting an object from fire hazard using an automatic stationary fire extinguishing system containing a control unit, fire detection means and a working electric field generation unit with a voltage converter and two oppositely charged electrodes, or a group of such units in which the system is connected to a source power supply, make fire hazard standby and constantly monitor safety, and when registering a fire in automatic mode, information is received about the place and amount of ignition, after which a high-voltage voltage is applied to the electrodes of the corresponding unit or group of nodes located at the place of ignition, a working electric field is generated and the flame is exposed to the flame until it disappears, according to the invention, the process is carried out with using a system made with the possibility of technological regulation of the high-voltage voltage supplied to the electrodes, place it in the potentially most fire hazardous areas of the object, they constantly monitor the safety of these zones and at the same time the opposite electrodes of the used nodes for generating the working electric field of the system are located in two opposite or in two adjacent planes of the mentioned zones of the protected object, and the shape of the electrodes and the technological gap h between them are set based on the conditions for obtaining by means of the field / fields generated by them an electromagnetic screen acting simultaneously on the entire volume of the flame, and the feed rate aemogo on high voltage electrodes selected from the range of values of its corresponding most effective elektropodavleniyu flame, which is determined for a particular process the interelectrode gap h, for example, in accordance with an exponential law of distribution of the electric field.

An additional difference of the method lies in the fact that the negatively charged electrode is placed in / under the lower plane, and the positively charged electrode is placed in the upper or lateral plane of the said zones of the object.

The technical efficiency of the proposed method is achieved due to the timely automatic detection of the fact of ignition, the establishment of its location and volume, and the generation of a working electric field (fields) that acts immediately on the entire volume of the flame of the ignition flame, since this ensures reliable and short-time suppression of the ignition flame and the fire situation in the guarded facility is not allowed to grow, which is especially necessary for protection against hot objects, such as flammable contents, strategic facilities, where the operating conditions unacceptable even a slight haze. The achievement of the same effect is facilitated by the invention proposed by the parameters of the placement of the electrodes of the nodes generating the working electric field, the choice of the shape of the electrodes and the interelectrode gap such that the generated working field (fields) creates an electromagnetic screen that covers the volume of the flame in all respects. In addition, varying the placement of the electrodes, their shape and the interelectrode gap h allows you to expand the nomenclature range of the used devices, to make them more universal, to reduce the cost of their manufacture, which together with the possibility of technological regulation of the high voltage voltage supplied to the electrodes in the established pattern will ensure the economic efficiency of the method .

In other words, the essence of the proposed method is to protect the object from fire hazard by creating, according to information from the registration means in automatic mode, an electromagnetic protective screen in the place of smoke and / or flame detection, which suppresses the combustion reaction, thereby extinguishes the source of ignition even before a fire occurs at a guarded facility and, importantly, without the use of consumables that increase the cost of the process.

The invention is illustrated by drawings, where: in figures 1 and 2 presents examples of the method for various options for placing unlike electrodes used nodes generating a working electric field; figure 3 is a diagram illustrating the nature of the dependence of the intensity of the working electric field on the magnitude of the interelectrode gap and the high voltage applied to the electrodes.

The proposed method of protecting an object from fire hazard is implemented using an automatic stationary fire extinguishing system containing a control unit, fire detection means (fire alarm sensors, such as smoke, heat, flame sensors, etc.) and a working electric field generation unit with an adjustable converter voltage and two oppositely charged electrodes connected to it, or a complex of such nodes spaced in predefined most fire hazardous areas my object. For example, if the protected object is a room, in particular a residential one, such zones can determine not only the volume of the room itself, but also the perimeter of the windows, doors, openings that are in it. The placement of the generating nodes of the working electric field in the openings of windows and / or doors provides protection of the internal volume of the room from a flame that has arisen outside the room.

Unlike electrodes in each of the generation nodes are placed one above the other either in two opposite planes of the zone, for example, in the upper and lower planes (Fig. 1), or in two adjacent planes: the lower and side (Fig. 2). In this case, a negatively charged electrode is always placed below - under the base of the proposed flame or at its level, which provides a structurally simplified installation of this electrode and a more complete coverage of the flame with an electric field.

The shape of the electrodes and the gap h between them are selected depending on the nature and purpose of the object, the configuration of the most dangerous zones so that they generate an electromagnetic screen through the fields / fields generated, which simultaneously affects the entire flame volume of the resulting fire.

The system is connected to a power source, it is brought into automatic fire hazard standby mode by switching on fire control and registration devices, for example, flame / smoke sensors, with the help of which they constantly monitor the safety of zones identified as the most fire hazardous.

In the event of a fire and detection of smoke / flame sensors from the control unit, the control signal is supplied to the generating units of the working electric field and, according to the given algorithm of the control unit, the voltage is increased using an adjustable high-voltage converter to a certain technological value, which is selected from the interval of its values corresponding to the most effective flame suppression torch. This interval is determined for a specific value of the interelectrode technological gap h in accordance with the exponential law of the distribution of electric field strength (Fig.3) or some other appropriate method.

By supplying the required technological high-voltage voltage to the electrodes, an electric field or a set of fields are generated that form, within the scope of the protected object or its individual zones, an electromagnetic screen that completely covers the flame plume and affects immediately its entire volume. The extinguishing process is based on the physical effect of the deflection of the flame to one of the opposite high-voltage potentials of the external electric field, positive. The cessation of the combustion process occurs due to a violation of the conditions for the chain reactions of physicochemical fission of charged radicals of ignited hydrocarbon substances in the flame core.

According to the invention, experimental laboratory tests were carried out, which showed the efficiency and effectiveness of the method. It should be noted that during tests in the process of extinguishing the flame also completely disappeared smoke, which is the product of incomplete combustion of hydrocarbon substances.

The proposed method of protecting an object from fire hazard is able to prevent a fire at the stage of ignition or to provide a high rate of extinction; suitable for various objects, including and to prevent and / or extinguish fires in the premises of residential buildings, enterprises and other structures; Compared to traditional contact fire extinguishing methods, it minimizes the likelihood of property damage.

Claims (2)

1. A method of protecting an object from fire hazard using an automatic stationary fire extinguishing system containing a control unit, fire detection means and a working electric field generation unit with a voltage converter and two oppositely charged electrodes, or a group of such units in which the system is connected to a power source, in a state of waiting for fire danger and are constantly monitoring safety, and when registering a fire in automatic mode, they receive information information about the place and volume of ignition, after which a high-voltage voltage is applied to the electrodes of the corresponding unit or group of generation units located at the place of ignition, a working electric field is generated and it is affected by the flame until it disappears, characterized in that the process is carried out using systems made with the possibility of technological regulation of the high-voltage voltage supplied to the electrodes, place it in the potentially most fire hazardous areas of the protected object, carry out the post Detailed monitoring of the safety of these zones and at the same time the opposite electrodes of the used nodes for generating the working electric field of the system are located in two opposite or in two adjacent planes of the mentioned zones of the protected object, and the shape of the electrodes and the technological gap h between them are set based on the conditions for obtaining by the fields / fields of the electromagnetic screen generated by them, acting simultaneously on the entire volume of the flame, and the magnitude of the high-voltage supplied to the electrodes The real voltage is selected from the range of its values corresponding to the most effective electric suppression of the flame, which is determined for a specific value of the interelectrode technological gap h, for example, in accordance with the exponential distribution of the electric field. 2. The method according to claim 1, characterized in that the negatively charged electrode is placed in / under the lower plane, and the positively charged electrode is placed in the upper or lateral plane of the said zones of the object.

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