DE836935C - Generator for the continuous generation of an explosive gas from solid and gaseous reactants - Google Patents

Description

Generator for the continuous generation of an explosive gas solid and gaseous reactants I) he continuous according to the invention Gas generator is suitable for generating any gas that reacts with solid and gaseous reactants is carried out.

The new device is particularly suitable for generation of gases that are explosive when they are present in certain concentrations, and in the present description it is based on the generation of chlorine dioxide described from gaseous chlorine and a solid chlorite.

When generating chlorine dioxide from a solid chlorite such as Sodium chlorite o (ler calcium chlorite, the gaseous chlorine is mixed with a inert gas, usually air, brought into contact with the solid carbonite.

The chlorine gas and the solid chlorite react with each other and form the desired chlorine dioxide and also sodium chloride. The obtained Chlorine dioxide is drawn off from the reaction zone in a mixture with the diluting air.

Chlorine dioxide is known to be relatively unstable and explosive Substance. Care must therefore be taken when producing and handling chlorine dioxide make sure that, as far as possible, conditions are avoided which are conducive to his Cause explosion. I) these difficulties usually avoids by that the generation and Use of chlorine dioxide made in a form in which the chlorine dioxide is to a high degree mixed with an inert gaseous medium, l> ebeispiels'veise air that is mixed. For this purpose both chlorine as well as air introduced into the chlorine dioxide generation zone, mixtures of chlorine dioxide and air in which <the concentration of chlorine dioxide is below a value, at which the partial pressure of the chlorine dioxide is around 70 mm Hg, can without explosion be handled. If the concentration of chlorine dioxide exceeds this value, it explodes very easily.

When producing chlorine dioxide from a solid chlorite, if the concentration of chlorine dioxide has reached a value at which an explosion occurred, the heat of reaction is so great that the chlorite quickly in Chlorate is converted and the temperature occurring thereby iil, cr the melting point of the chlorate.

1) a the chlorates are very aggressive and oxidizing, it is very important to the formation of the hot or molten, formed in the explosion To restrict chlorate to as small a space as possible to prevent that organic substances with which it could come into contact are set on fire.

Ier continuous gas generator according to the invention eliminates the dangers which proceed from a chlorodioxy explosion, essentially from.

I) the apparatus according to the invention essentially contains a reaction chamber, by which a solid chlorite and an air-chlorine mixture are advantageous be passed continuously in countercurrent. It also contains a l: xl) lt) sion space, which adjoins the reaction space and is connected to it, and also a gas-impermeable, indentable disc, which normally separates both chambers from each other.

The gas-impermeable disc, which is preferably dunii and made of Metal or plastic can be made, must be sufficiently strong to the withstand normal working pressure in the reaction chamber. At the moment when an explosion takes place in the reaction chamber and the l) jerk in this Chamber suddenly rises above the maximum permissible \ Vert, this thin slice becomes destroyed, and the contents of the reaction chamber emptied into the explosion chamber, in which the danger is then localized and destruction of the device is avoided.

The reaction chamber is advantageously somewhat horizontal to the I inclined and the connection between the reaction chamber and the explosion space close arranged at the lower end of the reaction chamber. The cross section of this connection is preferably essentially the same size as the cross section of the reaction chamber, so that after the disk has been pressed in, the back pressure iii of the reaction chamber rises the least possible waste is returned. The explosion space is advantageous provided with a flue, which is equipped with a relatively large cross-section and discharges the gases from the explosion chamber to the outside atmosphere. Furthermore are suitable devices for continuous, countercurrent feeding the solid chlorite and the air-chlorine mixture and for continuous extraction the air-chlorine dioxide mixture and the leached chlorite from suffering ends of the Reaction chamber and also for the removal of solids from the explosion space available. It can be seen that the countercurrent of the reactants certain Brings work benefits.

The apparatus according to the invention will now be described with reference to the drawing, the drawing is a partially sectioned side elevation of one embodiment of the invention. Such a device is particularly useful for generating of chlorine dioxide from chlorine and a chlorite.

The gas generator according to the invention contains the reaction chamber 10, which advantageously has a cylindrical shape and to the horizontal, as shown, is slightly inclined. At the top of this reaction chamber is a single funnel I2 provided, which contains a standard gout bell device, but its details are not drawn. This allows the solid chlorite to enter the reaction chamber during before working, without any gas escaping at this point can.

The chlorite is through the reaction chamber 10 by means of suitable Facilities passed through, and this can be advantageous done by a screw conveyor 14, which by some power source, not shown is driven via the gear transmission I6. The screw conveyor is with such at a speed that not only does the chlorite flow continuously the reaction chamber is guided, but that the reaction chamber also essentially is kept filled with chlorite so that the chlorine-air mixture moves with the Chlorite mass is brought into contact all over the cross-section and Passage channels and empty spaces that make the gaseous medium more comfortable Would offer away, be avoided.

The screw conveyor can be continuous depending on the working conditions or intermittently the consumed chlorite as chloride from the bottom of the reaction chamber empty into the chamber 18 equipped with a liquid seal, wherein this chamber I8 is covered with water 20 at the bottom, around this end of the reaction chamber to be sealed so that no gas escapes when the used chlorite is removed can. The water can be filled in through the filler valve 22 and the received Chloride solution can be drained through the outlet valve 24.

The chlorine, suitably diluted with air, enters through valved tube 26 into the reaction chamber and passes through the reaction chamber in countercurrent to the chlorite. The degree to which the chlorite and chlorine pass through the Re- action chamber is selected so that the chlorite, substantially reacted before it reaches the lower end of the reaction chamber and there is essentially no chlorine at the top of the reaction chamber. The ratio in which the air is mixed with the incoming chlorine will be like this chosen because {3 is the concentration of chlorine dioxide in the drawn off chlorine dioxide-air stream does not exceed the safety limit. This stream of chlorine dioxide and air is turned off withdrawn from the reaction chamber through the tube 28, which is provided with a valve.

According to the invention is immediately adjacent to the reaction chamber 10, an explosion chamber 30 is arranged, which, as indicated in the drawing, advantageously placed directly under the reaction chamber and forms part of the support. Between this explosion space and the reaction chamber is through the opening 32 a Connection created, which normally can be pressed in by means of the gas-impermeable Disc is locked.

This disc can be held in place by the retaining ring 36, wherein the retaining ring on the annular flange 38 that forms the opening 32 in the reaction chamber wall surrounds, can be fastened with bolts. To retain the chlorite in the reaction chamber and to avoid direct contact thereof with the disc 34 is a sieve or another perforated part 40 is provided.

If desired, this disc can be used as part of the reaction chamber wall be trained.

The disc 34 is advantageously made of a relatively thin material, such as silver. However, it must be firm enough to allow the normal working pressure in the reaction chamber up to a certain Maximum value at which no explosion does not occur. At this moment, where the pressure in the reaction chamber exceeds this limit, for example if the concentration of chlorine dioxide exceeds a maximum value and a If an explosion occurs, this disc must break and allow the contents of the Reaction chamber is emptied into the explosion space, where any through the Chlorate formed in an explosion is rendered harmless and prevented from doing so To carry out destruction. The sieve 40 is of course designed so that the contents the reaction clamp can be easily emptied into the explosion chamber.

The floor 42 of the explosion chamber is preferably, as shown, somewhat inclined, so that the solid matter emptied in this room by flushing with water can be removed, for this purpose the water through a with a valve lost pipe 44 occurs. In order to discharge the aqueous solution, there is an explosion chamber in this area a drain port 46 is provided.

Because at the moment of an explosion, at least some of them are in the reaction chamber located gases together with the chlorite and the chlorate formed from it in urges the explosion space, this space is provided with a vent 48 through which the gases are discharged to the external atmosphere. The cross section of the vent and the opening 32 must also be large enough to allow the formation of a back pressure in the reaction chamber and in the explosion chamber to the lowest possible level. These cross-sections can be essentially exactly as large as the cross-section of the Be reaction chamber.

Because of the corrosive properties of some reactants the reaction chamber 10 is advantageously made of corrosion-resistant material Manufactured and can for example be made of stainless steel or a cylinder other corrosion-resistant metal or a cylinder made of ordinary steel, which is lined with stoneware or glass. The screw conveyor 14 is also made of stainless steel or an alloy containing 700/0 Xi and 300/0 Cu for example manufactured. The remaining parts of the device, such as the explosion room, can be satisfactorily constructed from ordinary steel. The inventive Reaction chamber is of a typical inflator type and is approximately 152.2 cm long and about 152.4 mm in diameter. As drawn, it is slightly inclined and Provided near the lower end with an approximately 27 mm large indentable washer.

In a typical procedure, for example, sodium chlorite is used passed through the reaction chamber in an amount of about 45.3 g per hour and thereby completely in chlorine dioxide and sodium chloride by the action of the gaseous Chlorine implemented. Although the auger 14 operates continuously, advantageously such a procedure can also be used intermittently. The application the present invention is not limited to the example described.

There may also be facilities, but they are not shown are to the activity of the feed hopper I2 with the activity of the screw conveyor 14 to coordinate. Furthermore, the explosion space 30 is at least the same Size as the reaction chamber, advantageously even considerably larger, see above that there is an important safety factor.

This continuously operating reaction chamber can, if desired, be arranged vertically, in which case appropriate changes in the supply, Emptying and must be made in the sealing facilities. as well more than one crushable disc can be attached to a single reaction chamber be.

Claims (3)

PATENT CLAIMS: 1. Generator for the continuous generation of a explosive gas from solid and gaseous reactants, characterized in that that it has an elongated reaction chamber and an adjacent ventable chamber contains whose connection Opening through a gas-tight pane is closed, a certain working pressure prevailing in the reaction chamber absorbs, but is destroyed when a maximum pressure is exceeded and thereby the connection between the liitlell chambers releases, with one end of the reaction chamber Gas-tight connected devices for the supply of the solid reactant and the withdrawal of the generated gas, and also gas-tight at the other end of the reaction chamber connected devices for the supply of the gaseous reactant and the AS drove the leached solid reactant are arranged, and a screw conveyor is also provided in the reaction chamber. which the solid Substance from the inlet to the outlet end of the reaction chamber lies. 2. Gas generator according to claim I, characterized in that the Reaction chamber is inclined to the llorizontalen, and that the feed devices for the solid reactant and the evacuation device for the gas generated at the top and the feed device for the gaseous reactants and the extraction device for the leached solid reactant at the bottom Reaction chamber end are attached, with the ventable chamber immediately below the reaction chamber is arranged. 3. Gas generator according to claim 1 and 2, characterized in that in the connection opening between the reaction chamber and the ventable chamber A perforated supporting part carrying the solid material above the indentable disc (40) is arranged.