EP1268003A2

EP1268003A2 - Method for suppressing developing explosions

Info

Publication number: EP1268003A2
Application number: EP01931390A
Authority: EP
Inventors: Joachim Sans; Steffen Schilling
Original assignee: Bayern Chemie Gesellschaft fuer Flugchemische Antriebe mbH
Current assignee: Bayern Chemie Gesellschaft fuer Flugchemische Antriebe mbH
Priority date: 2000-04-04
Filing date: 2001-03-31
Publication date: 2003-01-02
Also published as: US6868915B2; SK11612002A3; HUP0300197A2; CZ20022692A3; US20030127234A1; DE10016738A1; DE10016738B4; WO2001074452A2; WO2001074452A3

Abstract

The invention relates to a method for suppressing developing explosions, especially in containers or rooms that contain dry bulks or gases that are liable to explode. The inventive method uses a gas generator which pressurizes gas that forces the extinguishing agents, once a maximum pressure is reached, from its container as one entity and distributes it in the form of an extinguishing agent cloud that spreads laterally and forwards, filling the container or room.

Description

Incoming explosion suppression method

The invention relates to a method for suppressing incipient explosions using an extinguishing device, in the housing (8) of which a pyrotechnic gas generator (1) and a container (5) of an extinguishing agent (6) closed with bursting membranes (3, 4) are provided, wherein the extinguishing agent (6) is ejected with the help of the compressed gas generated by the gas generator (1) and distributed to the side by the gas jet following at the speed of sound and is also accelerated forward.

For the suppression of explosions, e.g. B. of flour dust, coal dust, solvent vapors have been used with extinguishing agent, preferably powder, filled and under constant pressure containers that blow the extinguishing agent into the space to be protected if necessary via a quick opening valve. A corresponding nozzle is used for uniform distribution, especially for the lateral spreading of the extinguishing agent, which usually has the shape of a slotted hemisphere or one with several holes (see company publication "HRD-Systems", June 1995, company Total Walther Feuerschutz GmbH).

Furthermore, fire extinguishing systems have become known which consist of a gas generator arranged in series, an extinguishing agent container and an outlet opening. Conceptually, however, these devices are not suitable for suppressing a starting explosion. In the event of an explosion, the reaction must take place in the time range of a few milliseconds in order for the explosion to occur, i.e. H. effectively combat the pressures typical of an explosion.

US 870,479 describes an extinguishing agent cartridge in which a central charge is triggered with the aid of freely installed ignition cords. The triggering follows only by means of an open fire, a reaction to an incipient explosion is fundamentally not possible. Powder atomization is only suitable for fighting fire.

According to US 2,383,048, pyrotechnically generated compressed gas is introduced centrally into an extinguishing agent container with a relatively large cross section. As a result, the extinguishing agent and the conveying gas are first mixed and then expelled together. As a hand-held extinguisher, this device is only equipped with a small pyrotechnic charge, which is why it only produces a low ejection speed and lateral distribution of the extinguishing agent.

No. 5,305,957 proposes to equip an extinguishing device with a liquid extinguishing agent, a long, tubular acceleration section and a gas generator with a low delivery pressure of approximately 10 bar. Although a high exit velocity of the extinguishing agent is achieved, the lateral spread of the extinguishing agent jet remains low and the droplet decay only takes place at a greater distance in front of the device due to the velocity-dependent air resistance. This extinguishing device is therefore only suitable for point-specific fire fighting.

Finally, DE 195 44 399 C2 from the applicant describes an arrangement which is fundamentally suitable as an extinguishing device for suppressing explosions. However, there is no indication of how the extinguishing result can be optimized using the known design.

It is an object of the present invention to provide an extinguishing method which is suitable for suppressing dust explosions, such as food dust, in closed rooms within a very short time by means of a cloud of extinguishing agent filling the room volume. The object is achieved in a simple manner by the features of the extinguishing method set out in claim 1. Advantageous refinements result from the features of the subclaims.

The extinguishing method according to the invention makes it possible, for the first time, to generate a liquid dust cloud filling this volume within less than 15 msec in a limited space, such as a storage room or a container, if the pressure increase typical for a starting explosion was detected by means of a suitable sensor. The explosion is thus intercepted and suppressed well before its maximum formation. This effectively prevents major damage such as the destruction of the container or room to be protected and the fire spreading after the explosion.

An embodiment of the invention is shown in the drawing and is described below.

The figure shows schematically simplified the basic structure of the extinguishing device on which the method according to the invention is based. A pyrotechnic gas generator 1 which can be initiated via an ignition line 7 is provided in a housing 8 which has the shape of a tube section. This gas generator enables sufficient gas generation within the short period of time required for the extinguishing process. In order to generate the desired shape of the liquid dust cloud generated by the extinguishing device, it is necessary to achieve the maximum power of the gas generator within less than 15 msec, preferably in 10 msec, at which a gas delivery rate of 1 kg / sec is achieved. The burning time of the gas generator is about 30 msec. Only with the gas temperatures that occur can the required high volume flows be generated with a relatively low gas mass.

The gas generated by the gas generator 1 flows into a buffer volume 2, which from the housing 8, the gas generator 1 and the first bursting membrane 3 of the Extinguishing agent container 5 is enclosed. The generated gas is stored in the buffer volume 2 up to a maximum pressure of 30-50 bar, preferably about 40 bar. At this maximum pressure, the bursting threshold of the first bursting membrane 3 is reached, which is designed in such a way that the curved central area of the membrane first buckles in the ejection direction 11 and at the same time shears the membrane over the entire circumference of its edge. As a result, the second bursting membrane also shears off in the same way, so that the extinguishing agent 6 is acted upon uniformly over the entire cross section by the pressure which has arisen. The entire extinguishing agent is transported as a unit via the aperture 10 of the housing 8 in the ejection direction 11. The process of atomizing the liquid extinguishing agent 6 in the free space only begins immediately after the aperture 10.

The gas still generated after the membranes 3, 4 burst, emerges from the housing 8 at the speed of sound, strikes the extinguishing agent from behind and, due to its inertia, distributes it first at right angles to the outflow direction 1 1. The lateral extent of the extinguishing agent cloud in this phase is three to four times the extent in the ejection direction 1 1. The extinguishing agent cloud is then increasingly accelerated in the axial direction, which is accompanied by a significant increase in the speed of propagation in the ejection direction 1 1.

Decisive for the successful formation of the extinguishing agent cloud is the required high pressure of the gas generator 1, the application of the pressure to the entire cross section of the extinguishing agent 6, the position of the extinguishing agent container 5 directly at the aperture 10 of the housing 8 and the length / diameter Ratio of the extinguishing agent container 5 and the strictly circular cylindrical cross section of the housing 8 without widening and without steering means, which influence the movement of the extinguishing agent. An optimal result of the distribution of the extinguishing agent can only be achieved if all parameters have been set in the sense of the method according to the invention. The use of a gas generator proves to be advantageous since the gas generation rate for the extinguishing agent discharge and the subsequent distribution process can be set within wide limits. A permanent pressure vessel is not required. This makes the extinguisher very compact. The maintenance and testing effort is significantly reduced. The assembly takes place by means of a flange 9 in an opening of the container or space to be protected. If a non-toxic gas is generated by the gas generator according to the invention and water 6 is used as the extinguishing agent, use in occupied rooms or in the storage area of food is also possible.

Claims

claims

1. A method for suppressing incipient explosions using an extinguishing device, in the housing (8) of which a pyrotechnic gas generator (1) and a container (5) of an extinguishing agent (6) sealed with bursting membranes (3, 4) are provided, the Extinguishing agent (6) is ejected with the help of the compressed gas generated by the gas generator (1) and distributed to the side by the gas jet following at the speed of sound and is also accelerated forward, characterized in that

after the gas generator (1) has been ignited, the maximum gas delivery is reached within a short time,

a buffer volume (2) arranged between the gas generator (1) and the first bursting membrane (3) of the extinguishing agent container (5) is filled up to a maximum pressure of 30-50 bar, preferably about 40 bar,

when the maximum pressure is reached, the bursting membranes (3, 4) are torn open and the extinguishing agent (6) is first expelled as a compact unit,

the extinguishing agent (6) is atomized in front of the housing (8) of the extinguishing device by means of the inflowing gas stream.

2. A method for suppressing explosions, characterized in that after ignition of the gas generator (1) the maximum gas generation of more than 1 kg / sec is achieved in less than 15 msec.

3. A method for suppressing incipient explosions according to claim 1 or 2, characterized in that the ejected extinguishing agent (6) in front of the housing (8) of the extinguishing device is first distributed radially to the ejection direction (1 1) and then increasingly distributed in the ejection direction (1 1) is done.

4. A method for suppressing incipient explosions according to at least one of the preceding claims, characterized in that a liquid extinguishing agent (6), preferably water, is used.

5. Device for performing the method according to at least one of claims 1 to 4, characterized in that the output end of the extinguishing agent container (5) is arranged on the aperture (10) of the housing (8) of the extinguishing device.

6 device for performing the method according to at least one of claims 1 to 5, characterized in that the extinguishing agent container has a length / diameter ratio less than 2, preferably by 1.

7. Device for performing the method according to at least one of claims 1 to 6, characterized in that the gas generator (1) generates a non-toxic gas.