DE2437136A1 - DEVICE FOR THE CONTROLLED COMBUSTION OF COMBUSTIBLE GASES - Google Patents

Description

"Device for the controlled combustion of combustible Gases "

The invention relates to devices for burning gases. More precisely, it relates to the burning of Gases that are highly explosive when mixed with air in the right proportions. In particular, the invention relates to the formation of a water seal system, which is arranged between the entering gas line and the combustion area is where the gas meets an incoming air supply. The purpose of this water seal is to create a continuous To prevent gas column from the inlet pipe to the combustion zone, through which an explosion wave or flame front

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Patent attorneys Dipl .-! Ng. Martin Licht, Dipl.-Wirtsch.-Ing. Axel Hansmann, Dipl.-Phys. Sebastian Herrmann

8 MÖNCHEN 2, THERESIENSTRASSE 33 · Telephone: 2812 02 - Telegram address: Lipatli / Munich Bayer. Vereinsbank Munich, branch. Oskar-von-Miller-Ring, Ktp. 882495 Posfschedc-IConfo: Munich No. 163397

Oppenau office: PATENT ADVOCATE DR. REINHOLD SCHMIDT

backwards along this gas column and into the gas line and back could go to the gas source.

Examples of devices which have been designed to form water lock systems are known in the art. Some these examples are described in the following U.S. patents: 3,231,252, 3,331,194, 3,606,985, and others. With these gas is allowed to flow through a liquid in the form of a series of separate bubbles, with successive ones in between Bubbles each consist of a liquid gap, and not as a continuous flow in the form of a gas jet or a gas column. If there is only a single dip tube device through which the gas flows, there is maximum gas flow the risk that the gas will pass through as it passes from the immersion tube through the water to the surface Gas column forms, through which an explosion in countercurrent to the gas flow direction downwards and finally to the gas source can progress. With highly explosive gases flowing through the closure and when moving from the surface of the liquid downstream an ignition source, such as a pilot flame, the flame front can be in countercurrent of the gas flow when there is uninterrupted gas flow through the liquid to reach the gas source. If, however, there is always a liquid gap between successive gas bubbles which flow through the liquid pass through, the flame front cannot cross the liquid gap, and the combustion of the gas begins delimits the space located downstream from the liquid surface.

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A property of liquid closures according to the state The technique consists in that the gases, which flow towards the liquid through tubular parts, are passed to a tubular Entrance part must arrive at a point above the liquid level. This is based on the fact that liquid is self-acting Mirror forms and if there is a tubular gas inlet below the liquid level, the liquid flows in one such an amount back into the tubular part that the drainage of liquid creates a liquid seal over the tubular part Entry part is prevented.

Because of the need to reduce air pollution it is often necessary to burn highly explosive gas mixtures, such as carbon disulfide and air or Ethylene oxide and air. Furthermore; these gases are also mixed used with oxygen. The normal burners equipped with a pilot flame cannot be used in this case as the type of combustion gas has a violent explosion effect in the entire combustion system could.

However, these gas mixtures can be safely removed from the liquid surface in the liquid seal can be burned if the passage of gases through the liquid in the form of a series of individual bubbles takes place. In the device according to the invention there is a construction with openings for the gas flow provided by which the state of gas flow through the liquid is created in the form of bubbles, and a device for the protection of the flowing gas from the

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Flame generated high temperature. Furthermore, gas inlet parts are substantially below the liquid level of the sealing liquid intended.

The present device can be used safely for burning explosive gases either with or in conjunction with accessories can be used with a fire-proof lined, vertically upright structure, which can be achieved by drawing in corresponding Combustion air emits the combustion products significantly above ground level. The emitted combustion gases are products of complete combustion. When using the device according to the invention, a corresponding Ignition device can be used to ignite the gases when they leave the surface of the liquid.

The object on which the present invention is based is to create a system for safe combustion and Ignition of highly explosive gases by passing the gas through a water seal with a large horizontal cross-sectional area where the gas is forced to pass through a large number of small holes and then up through the Water column as a series of gas bubbles separated from one another by water. The gas passage is as a pair of concentric annuli is formed with the gas up through the outer space, over a barrier and through the inner space passes down, from where it passes through a plurality of gas flow openings at the lower end of the water chamber flows into the bottom of the water chamber. Instead of water, any other suitable liquid can of course also be used will.

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A large water supply with a controlled level is provided in order to be able to fill up the water in the water seal that usually vaporized by mixing with the passing gas and also due to the heat of the flame above the Surface is evaporated. Furthermore, water loss occurs due to the formation of bubbles and eddies in the water itself. The formation of the water seal provides for parts to reduce the we at formation. These consist of two control parts, one of which is a horizontal ring with a definite radial width and a large central opening through which the main part of the gas is passed. The central opening is covered by an overhanging sheet of perforated metal, through which Holes the gas must go through in order to go up through the Water to get to its surface.

These and other objects and advantages of the present invention and a better understanding of the principles and details of the invention will become apparent from the following description in conjunction with the accompanying drawings, in which

1 shows a vertical cross section through an embodiment of the water closure part of the invention Device shows and

Fig. 2 is a vertical cross section through the entire combustion device including the water closure part shown in FIG. 1.

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In the drawings, and in particular in FIG. 1, there is a water seal system shown for the passage of gas into a combustion chamber. It is denoted by the general reference number 10 and includes an outer cylindrical wall 12 and a circular bottom plate 14 with a tube 16 in the axis of the cylinder for the introduction of the gas. A second horizontal one Plate 40 is arranged at a distance above the base plate 14. The plate 40 carries a cylindrical shell 37 which is attached to the plate 40 is welded and forces the gas entering upwards through the annular space 31 between the wall 37 and the outer wall to flow in the direction of arrows 21 and 22. A second cylindrical wall 38 is welded to the plate 40 and so at a distance arranged by the cylindrical wall 37 that it forms a second annular space 33 through which the entering gases, the have flowed up through the annulus 31, now down and through a circumference at the bottom of the wall 38 close to the Plate 40 formed series of holes 36 pass therethrough.

A tank 52 for liquid, which for the sake of simplicity is described herein as water, is connected to the device by a pipe 56 connected. The tube 56 runs from below through the base plate 14 and is welded into the plate 40 at one point 60. The water is kept at a level 62 in the tank 52 and is therefore automatically equal in the interior of the inner wall 38 the level 61 to the level 62. The water also rises to the level in the space between the two walls 38 and 37 61 on when no gas is flowing.

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The gas flows in the direction of arrows 18, 20, 21, 22 and 23. That Gas flowing into the water at a certain depth below the surface of the water is controlled by two baffles one of which, 25, is in the form of a flat ring with a central opening 67 resting on feet 28 at a certain height is carried over the bottom plate 40. There is also a second circular plate with a larger diameter than the opening 67 is provided in the plate 25. This top plate 30 has a plurality of small openings 32 distributed over its surface are. The plate 30 is supported above the annular plate 25 by feet 34. The water level 61 is on a certain Height kept above the height of the plate 30 so that it's in the direction of of arrows 23 flowing gas towards the center of the water space along arrows 24 and up through the Holes flowing along the arrows 64 until it breaks through the water level 61 and upwards within the cylindrical Wall through room 66.

It is important that the flowing gas is always kept below a temperature at which it would automatically ignite and burn, and there in the space 66 hot gas and combustion flames are included, the space between the wall 46 and the cylindrical wall 38 with a ceramic Insulation 44 and, if preferred, filled with a thin layer of insulation 42 made of ceramic wool. These Combination or some other suitable insulation combination is used to keep the incoming gas at a sufficiently low temperature to hold so that it does not burn immediately, but into the

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Space 33 between the wall 38 and the wall 37 flows through and through the baffles and flows upward through the liquid in the form of bubbles separated by water.

In Fig. 1 the formation of a water seal is shown, which has a large cross-sectional area and sufficient vertical height to maintain a water seal. Further a large water surface is provided through which the gas can reach the top in the form of bubbles to ensure that no continuous gas jet or no continuous gas column occurs. The device makes a large number smaller Bubbles formed, which reduce the formation of eddies in the water. Such a vortex formation could break through bigger Favor gas columns through the surface of the water. In the device shown, the gas has to pass through the small cross-section of the individual openings 32 go through and is thereby divided into bubbles, so that the entering gas at any time through a water barrier is separated from the flame.

Adequate water supply is provided in the water seal device to maintain a certain water level.

Adequate thermal insulation is also provided over the area in which the gas flows through the water seal, so that the gas is not heated to combustion and explosion temperature.

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Referring to Fig. 2, there is shown a burner tower designated by the general reference number 70 and comprises an outer vertical cylinder 72 which rests on a flange 75 on the floor. the The water sealing device 10 described in FIG. 1 is installed at the lower end of the burner tower 70, with an annular space 87 exists between the water seal 10 and the outer wall of the tower. Air enters the bottom of the tower through several Openings 74. The water seal device can be connected to the outer wall of the tower by welded supports 76 or other appropriate means are borne.

The air enters the bottom of the tower through a series of openings 74 and up through the annular space 87, as the arrows 89 indicate, over the top of the water seal 10 in the direction of arrows 90. Here the air meets the gas column rising in the direction of arrows 92. There is a mix here of air and gas instead, and the resulting mixture is ignited by the flame 50 of the pilot flame device 48. That Burning gas flows upwards in the direction of arrows 93 through part of the burner tower, which is lined with ceramic parts 88 is. The hot gases contained in the burner tower develop a draft or sub-atmospheric pressure above the Device 10 and thereby cause the inflow of air. The burning gases are completely burned and get there through the upper end of the burner tower (not shown) to the outside air.

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The water supply can expediently in the form of a annular tank 78 are provided which is welded to the outer wall 72 of the tower in the vicinity of its lower end is; The water passes through inlet 80 through a control port 79 in the outer wall of the tank. A pipe 81 is welded into the bottom of the tank and is in the vertical direction sized so as to ensure an adequate water level and that the water level is at or near the height of the upper end of the overflow pipe 81 is held. A pipe 56 is welded into the bottom of the tank and runs into the Water lock assembly 10, such as tube 56 in FIG. 1. The gas flows through the pipe 16 into the device in the direction of the Arrow 18.

While the top of the tower above plate 86 could be omitted and the gas rising through space 66 at the The mouth of the wall 12 could be burned, this would not be entirely satisfactory because of the possibility of air pollution at low altitudes. Therefore, the combination of the water seal and the combustion device 10 forms with an adjoining lined tower 72 a higher one High temperature passage for the burning gases to ensure complete combustion. Furthermore, the Tower 70 the dispersion of combustion products at a greater height, so that a distribution over a wide area and therefore a lower concentration of pollution would take place at any point at ground level.

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Claims (9)

PATENT CLAIMS: . j device for the controlled combustion of combustible gases, marked by a) a cylindrical liquid container (38, 40) and a device (52) by means of which a certain liquid level
a non-flammable liquid is maintained in the liquid container,. b) a first wall (37) outside the container wall (38), the one first annular space (33) which surrounds the liquid container for the downward flow of the combustible gases, c) a plurality of circumferentially formed small openings (36) in the wall of the container near its bottom, which
are in communication with the first annular space (33), d) guide parts (25, 30) attached inside the container above the openings but below the surface of the liquid, the at least one first horizontal plate (30) with a plurality
of small openings (32), e) a cylindrical shell (46) inside the container over the Liquid surface and thermal insulation (44, 42) between the shell and the wall of the container, and f) a device (16, 40, 12) for the supply of the combustible
Gas to the upper end of the annulus (33), and means (48) for igniting the gas above the liquid surface. -12- 509844/0678. 2. Device according to claim 1, characterized in that a second wall (12) is provided outside the first wall (37), which forms a second annular space (31) which is in communication with the upper end of the first annular space (33), and that the gas is fed to the lower end of the second annular space (31) through parts (16, 14, 40). 3. Device according to claim 2, characterized in that a circular plate (14) is welded to the bottom of the second wall (12) is and is at a distance below the bottom (40) of the liquid container, the space between the plate (14) and then Floor (40) is in communication with the second annular space (31), and that a part (16) is provided for the supply of gas into this space. 4. Apparatus according to claim 1, characterized in that a second guide part (25) is provided in the form of an annular plate with an outer diameter which is larger than the diameter the first plate (30), and which has a central opening (26) of smaller diameter than the first plate (30), and that the second guide part (25) is attached between the first plate (30) and the bottom of the liquid container. 5. The device according to claim 1, characterized in that a storage and supply tank for the liquid and a device to maintain the liquid level in the cylindrical liquid container and in the supply tank at the same level is provided. 509844/0678 6. The device according to claim 1, characterized in that the liquid is water. 7. The device according to claim 1, characterized in that a cylindrical tower (70) is provided, the larger diameter has than the combustion device (10), and surrounds it, and that the tower is designed so that air through the annular space between the Burning device and the tower can go up. 8. Apparatus according to claim 7, characterized in that on a ceramic lining (88) is provided over the furnace (10) on the inner surface of the tower. 9. The device according to claim 1, characterized in that the Maintained liquid level of the non-flammable liquid is below the upper flow level of the flammable gases. 509844/0678