RU199162U1 - END FLAME RETAINER - Google Patents

Abstract

The utility model relates to the energy, chemical, oil and gas, coal industries, in particular to explosion pressure relief devices with simultaneous prevention of the spread of the flame of internal ignitions and / or explosions of combustible and / or explosive mixtures arising in closed systems. The end flame arrester, installed on the flange of the discharge pipe of a closed system, includes a body with two flanges, an explosion safety valve with a membrane, a flame extinguishing element, a gasket made of non-combustible material, a flange with a grate, a protective film of non-combustible material, connecting elements in the form of studs, washers, bolts and nuts, sight glass, eyelets. In the end fire arrester, the area of the equivalent free cross-section of the flame-extinguishing element is not less than the free cross-sectional area of the discharge branch pipe of the closed system. The end flame arrester is additionally equipped with a screw mechanism for replacing the membrane of the explosive safety valve. The end flame arrester is additionally equipped with a telescopic mechanism for replacing the explosion relief valve membrane. 2 wp f-ly, 3 dwg

Description

The utility model relates to the energy, chemical, oil and gas, coal industries, in particular to explosion pressure relief devices with simultaneous prevention of the spread of flame of internal ignitions and / or explosions of flammable and / or explosive mixtures arising in closed systems, including pipelines, tanks and so on, in order to prevent the destruction of this equipment by fire and / or explosion and to preserve the life and health of people and material values outside closed systems.

In accordance with regulatory documents, elements, units and equipment of closed systems, in which flammable and / or explosive mixtures can arise, must be protected from destruction in the event of an explosion, that is, have an explosion-resistant design, or a design designed for a reduced explosion pressure using explosion pressure relief devices. Such devices can be explosive safety valves with bursting membranes, ventilation hatches or safety hinged partitions.

The release of the ignition and / or explosion pressure is allowed in the working area, in which case the personnel could be endangered, for example from flames or flying debris. There may also be a risk of explosion inside the building if unburned combustible and / or explosive mixtures and flames are released as an ignition source. In this case, the explosion pressure relief devices are equipped with flame extinguishing elements that freely pass the flow of a combustible and / or explosive mixture through the flame extinguishing element and prevent the spread of the flame.

Flame extinguishing elements installed on explosion pressure relief devices create aerodynamic resistance that prevents the release of increased pressure arising from ignition and / or explosion, which can lead to the destruction of elements, assemblies and / or equipment of closed systems in which ignition and / or explosion occurs ...

It is known that permeable obstacles uniformly distributed over the section of the channel or pipeline through which the flow is moving create resistance to this flow. This resistance directly depends on the free area of the obstacle. Free area of the free area of the obstacle for the flow passage. If the obstacle has indirect openings (channels) for the flow passage, then for it it is possible to calculate the area of an equivalent free section corresponding to the obstacle having direct openings (channels) for the flow passage. The calculation is carried out according to known formulas taking into account the results of aerodynamic tests.

For the prototype of this utility model, a flame arrester was adopted (RF patent for utility model No. 189242, priority date 09/21/2018, publication date 05/16/2019 in bulletin No. 14, class IPC A62C 4/00), located on the outlet flange of the protected equipment with bolts, washers and nuts, containing a body, an explosive safety valve with a membrane mounted on the branch, a replaceable flame extinguishing element made of alternating flat and corrugated metal strips, providing flame extinguishing without heating the body of the fire arrestor above 150 ° C, a fire arrestor gasket made of non-combustible material, cover with upper diaphragm made of non-combustible material, studs, washers and nuts, sight glass and supports.

The disadvantage of the prototype is that the area of the equivalent free cross-section of the flame-extinguishing element, passing unburned combustible and / or explosive mixture, combustion products, as well as excessive ignition and / or explosion pressure, does not depend on the total area of the passage, which can create significant resistance, lead to insufficient release of explosion pressure and destruction of the enclosure of the protected equipment. Another drawback of the prototype is the inability to quickly change the membrane of the explosive safety valve if it is damaged. There is an inspection window to control the integrity of the membrane, there are washer bolts and nuts for pressing the body together with the explosion safety valve to the supports attached to the branch, that is, only for attaching the flame arrester to the branch flange. But to replace the membrane of the explosive safety valve, it is necessary to unscrew the nuts and remove the body and everything that is located on it, which requires significant time and labor.

The technical result of the proposed utility model is to improve the reliability and manufacturability of the proposed end arrester.

The specified technical result is achieved by the fact that in the inventive end flame arrester installed on the flange of the discharge pipe of a closed system, including a body with two flanges, an explosive safety valve with a membrane, a flame extinguishing element, a gasket made of non-combustible material, a flange with a grate, a protective film made of non-combustible material, connecting elements in the form of pins, washers, bolts and nuts, a viewing window, lugs, according to the claimed utility model, the area of the equivalent free cross-section of the flame-extinguishing element is not less than the free cross-sectional area of the discharge pipe of the closed system. Also, the inventive end flame arrester is additionally equipped with a screw mechanism for replacing the membrane of the explosive safety valve. Also, the inventive end flame arrester is additionally equipped with a telescopic mechanism for replacing the membrane of the explosive safety valve.

The claimed utility model is illustrated by drawings, where FIG. 1 shows a side view of the inventive end flame arrester with screw mechanisms for replacing the membrane of the explosive safety valve, FIG. 2 shows a side view of the inventive end flame arrester with a telescopic mechanism for replacing the membrane of the explosive safety valve; FIG. 3 shows a top view of the inventive end flame arrester, regardless of the type of mechanism for replacing the membrane of the explosive safety valve.

The claimed end flame arrester (Fig. 1, Fig. 2, Fig. 3) consists of a housing 1 with lower 2 and upper 3 flanges, an explosive safety valve with a membrane 4, a flame extinguishing element 5, a gasket 6 made of non-combustible material, a flange with a grate 7, protective film 8 made of non-combustible material, connecting elements in the form of pins 9, washers 10, bolts 11 and nuts 12, inspection window 13 for monitoring the integrity of the membrane 4, lugs 14 for moving the end fire arrester, a mechanism for replacing the membrane of the explosive safety valve. The end flame arrester is connected by means of connecting elements 10, 11, 12 to the flange 15 on the discharge pipe 16 of a pipeline or other closed system, in which ignition and / or explosion may occur. The flame extinguishing element 5 is attached to the upper flange 3 of the housing 1 through a gasket 6 made of non-combustible material, which does not allow flame through the joint. The flame extinguishing element 5 is attracted to the flange with the grid 7 through the protective film 8 made of non-combustible material using the connecting elements 9, 10, 12.

The screw mechanism for replacing the membrane of the explosive safety valve (Fig. 1) consists of a lower support 17, welded to the discharge pipe 16, an upper support 18, welded to the body 1 and the lower flange 2, studs 19, washers 20, and nuts 21 connecting the lower 17 and upper 18 supports to each other and necessary for quick replacement of the membrane 4. On one end flame arrester, several screw mechanisms for replacing the membrane 4 of the explosive safety valve can be provided.

The telescopic mechanism for replacing the membrane of the explosion safety valve (Fig. 2) consists of a spacer 22, which has a flange connection with a flange 15 on the discharge pipe 16 and a lower flange 2, at least two brackets 23 welded to the spacer 22 and the body 1, an elastic element 24 made of non-combustible material, a pivot plate 25. On the one hand, the pivot plate 25 is supported on the pin 26 of the lower support 27, on the other hand, it is attached to the upper support 28 by means of a bolt connection 29. The lower support 27 is welded to the spacer 22. Upper support 28 welded to body 1.

The principle of operation of the flame extinguishing element 5 is based on extinguishing the flame by means of heat exchange in channels of small diameter, which are smaller than the critical flame extinguishing diameters for various combustible and / or explosive mixtures. The flame, falling into the channels of a small section, is split into separate small streams. The contact surface of the flame with the flame extinguishing element 5 increases, the heat transfer to the channel walls increases, and the combustion reaction stops. The designs and materials of flame-extinguishing elements and, in general, flame arresters are described in the book by P.M. Kovalchuk. Rapid flame baffles. - M .: NIITEKHIM, 1977. - 92 p., And in the book of I. I. Strizhevsky, V. F. Zakaznov. Industrial flame arresters. - M .: Chemistry, 1974 .-- 189 p. There is also a description of flame-extinguishing elements in various sources, for example, RF patent for invention No. 2229318, conventional priority: 11/10/1998, publication date 05/27/2004 in Bul. No. 15, class IPC A62S 4/00; RF patent for invention No. 2578116, conventional priority: 05/04/2010, publication date 03/20/2016 in bul. No. 8, class IPC A62S 4/00; RF patent for utility model No. 28620, priority date 01/29/2002, publication date 04/10/2003 in Bul. No. 10, class IPC A62C 4/02 and so on. The flame extinguishing element can be made of alternating corrugated and flat metal strips or a set of nets superimposed on each other, which is not the subject of this utility model. Thus, for the manufacture of the flame extinguishing element, any of the known materials and structures can be selected that provide free passage of flammable and / or explosive mixtures, but prevent the spread of flame.

To exclude significant resistance to the flow of combustion products and increased pressure of ignition and / or explosion that has arisen inside a pipeline or other closed system, in which flammable and / or explosive mixtures may occur, in the inventive end fire arrester the area of the equivalent free cross-section of the flame extinguishing element 5, having both straight lines , and indirect holes / channels, is not less than the free sectional area of the discharge pipe 16 of the closed system. If this condition is met, the flame extinguishing element will create a minimum resistance to relieve the ignition and / or explosion pressure, and the elements, assemblies and equipment of closed systems, in which ignition and / or explosion may occur, will not collapse. This has been confirmed by bench tests. The free cross-sectional area of the discharge pipe 16 is calculated knowing its inner diameter D (Fig. 1, Fig. 2). In the case of using metal meshes in a flame extinguishing element, the area of an equivalent free cross-section for a set of such meshes can be determined taking into account the results of aerodynamic tests using diagrams and formulas given in the "Handbook on hydraulic resistance", I.E. Idelchik / Ed. M.O. Steinberg - 3rd ed., Revised. And add. - M .: Mechanical Engineering, 1992 - 672 p .: ill.

The flame extinguishing element 5 is protected from contamination by the protective film 8 from the external environment and by the membrane 4 of the explosive safety valve from the internal environment of the pipeline or other closed system, in which flammable and / or explosive mixtures may occur.

Connections 9, 10, 12 allow you to quickly replace the flame extinguishing element 5 in the event of ignition and / or explosion or if necessary. On the flange 7 there is a grill that retains the flame extinguishing element 5 in case of exposure to increased ignition pressure and / or explosion.

The inventive end flame arrester works as follows. In the event of ignition and / or explosion inside a pipeline or other closed system, in which flammable and / or explosive mixtures may appear, the pressure rises until the membrane 4 of the explosive safety valve bursts. After the rupture of the membrane 4, designed for a known pressure, the increased pressure, the flame and explosion products enter the body 1 of the flame arrester. The flame extinguishing element 5 extinguishes the flame and creates a minimum resistance to relieve pressure, since the area of the equivalent free cross-section of the flame extinguishing element 5, having both direct and indirect holes / channels, is not less than the free cross-sectional area of the discharge pipe 16 from the pipeline or from another closed system, in which ignition and / or explosion occurred. Thus, the end flame arrester reliably performs the function of extinguishing the flame and relieving the explosion pressure to prevent the destruction of elements, assemblies and / or equipment of closed systems in which ignition and / or explosion occurs.

The existing mechanism for replacing the membrane as part of the inventive end flame arrester allows you to quickly replace the membrane 4 of the explosive safety valve, if necessary, without removing the housing 1 and everything located on it. The screw mechanism for replacing the membrane, as well as the telescopic one, allows only to raise the body 1 and everything that is located on it to replace the membrane, and then lower it back, which reduces time and labor costs, thereby increasing the manufacturability of servicing the proposed end fire arrester.

Replacing the membrane of the explosive safety valve using a screw mechanism is performed as follows (see Fig. 1). Unscrew the nuts 12 in the bolted connection of the lower flange 2 and flange 15 on the discharge pipe 16. By gradually unscrewing the two upper nuts 21 in the screw mechanisms for replacing the membrane of the explosive safety valve, the body 1 and everything that is located on it, including the lower flange 2 The diaphragm 4 of the explosive safety valve can be freely pulled out and replaced with a new one. After replacing the membrane 4 of the explosive safety valve, the nuts 21 are also tightened evenly, lowering the upper part of the flame arrester to its original place, and the membrane 4 is pulled between the lower flange 2 and flange 15 on the discharge pipe 16 using connecting elements 10, 11, 12.

Replacing the membrane of the explosive safety valve using a telescopic mechanism is performed as follows (see Fig. 2). Unscrew the nuts 12 in the bolted connection of the lower flange 2 and the upper flange of the spacer 22. Disconnect the bolted connection 29 to release the pivot plate 25 from the support 28. The pivot plate 25 is turned on the pin 26. The lower flange 2 is lifted by compressing the elastic element 24. Membrane 4 of the explosive safety the valve can be freely pulled out and replaced with a new one. After replacing the membrane 4, the lower flange 2 is lowered and the membrane 4 is pulled to the upper flange of the spacer 22 using the connecting elements 10, 11, 12. The pivot plate 25 is turned on the pin 26, installed in the support 28 and the bolted connection 29 is tightened.

Claims (3)

1. End arrester installed on the flange of the discharge branch pipe of a closed system, including a body with two flanges, an explosion safety valve with a membrane, a flame extinguishing element, a gasket made of non-combustible material, a flange with a grate, a protective film made of non-combustible material, connecting elements in the form of pins, washers , bolts and nuts, inspection window, lugs, characterized in that the area of the equivalent free cross-section of the flame extinguishing element is not less than the free cross-sectional area of the discharge branch pipe of the closed system. 2. The end flame arrester according to claim 1, characterized in that it is additionally equipped with a screw mechanism for replacing the membrane of the explosive safety valve. 3. The end flame arrester according to claim 1, characterized in that it is additionally equipped with a telescopic mechanism for replacing the membrane of the explosive safety valve.

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