DE141706C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

- JVl 141706 - CLASS 26 «.

The invention relates to a device for producing heating gas from solid Substances such as coal, municipal waste, bituminous slate, etc. and for calcining or roasting of ores and other materials and has a rotatable, inclined reaction chamber. It differs from known apparatus of this type essentially in that the rotatable chamber the material to be treated is fed from a fixed antechamber, in which it lies in such a high layer that it covers the mouth of the rotating chamber.

On the drawings shows:

Fig. Ι a vertical section through the apparatus,

Fig. 2 is a plan view,
Figure 3 is a front view of part of the apparatus.

The inclined, tubular chamber 1 lined with refractory clay is set in rotation by the worm wheel 2 by means of the worm 3 and runs below and above in bearings 4, 4 ^a , which are provided with anti-friction rollers \ ^b . The lower bearing has rollers 4 ^C , which run on a ring i ^a placed around the outside of the rotary chamber and absorb the pressure downwards.

The space 5 adjoining the upper end of the chamber forms the pre-absorption space for the fuel and is provided with a movable feed 7, η ^α , through which the fuel is introduced, and with a discharge 8 for the exit of the gases generated by the combustion. The brickwork 6 adjoining the lower end of the chamber is provided with a channel 9, for example a pipe, for the entry of the air or the air or steam mixture. Furthermore, a discharge line 10 is provided for the ashes. The remaining between the ash channel 10 and the chamber ι part 6 ^a forms an ash bridge of a suitable height, over which the 'ash must pass away.

The ash bridge 6 ^a is an essential part of the apparatus and it is achieved by its arrangement that the fuel is rotated longer during its passage through the rotating chamber and cannot immediately fall down from the lower end of the rotating chamber before the combustible parts are completely converted into gas . As a result, only the ashes can get into the ash extractor. This ash extraction can, as shown in Fig. Ι in solid lines, lead down vertically, but it can also, as the dotted lines show, be arranged at an angle, and as an ash fall, close the lower end of the apparatus and the escape of air or air and prevent steam. The lower end of the ash channel ends in a tunnel 11 through which the ashes can be removed in a known manner, either automatically to the extent that

the ashes fall into the ash waste, or by hand. The lower end of the ash channel can also be provided with a drop bottom, as shown in FIG. 1 ^a , where two drop flaps are attached, which are opened from time to time and release the ashes into carts pushed underneath. If gas is produced from a substance which leaves only small amounts of ash, so

ίο can mediate the closure of the ash channel io Water can be produced.

The material from which the gas is to be extracted passes partly through its own gravity, partly as a result of the rotation of the chamber 1 through the apparatus, whereby it is simultaneously set in rotation so that the resulting ash is forced over the ash bridge 6 ^a to step into the ash channel 10. For this purpose, the chamber 1 is arranged at such an angle that the fuel easily passes from the antechamber 5 into the chamber, in which it slides down under the action of the rotation of the chamber, so that it only continues to move when the chamber is rotating and comes to a standstill when the rotation stops. Wherein the launched on the accompanying drawings illustrating the apparatus chamber is installed inclined at an angle of 30 ^0; the angle can of course also be assumed differently according to the circumstances.

The feed at the top of the space 5 is expediently formed from two tubes 7 and j ^a , which sit telescopically one inside the other, so that the lower tube 7 attached to the tube j ″ can slide up and down. The ropes 7 * run over rollers η °. As a result, the height of the amount of fuel closing off the upper end of the chamber 1 can be adjusted The upper tube η ^α protrudes from the outer tube and its upper opening is designed as a funnel into which the material to be processed is poured.

The poured material falls into the room 5 and gets into the chamber 1; When pouring further through the pipe 7, η ^α , the fuel piles up in the space 5 up to the lower end of the filling pipe 7 and completes the same, whereupon the refilling stops. If then, after the combustion of the material has been initiated beforehand, the chamber is set in rotation and air or air and steam are introduced through the upper opening or the blower pipe 9, the gas preparation process begins. During the passage of the fuel through the rotary chamber 1, a new surface exposed to the action of the air flow is continuously created, so that the combustible part of the coal is completely burned. The gases generated go through and via the fuel masses α to the upper layers, which are kept in white heat and in which the gases are transformed in the known manner into combustible gas, which is carried away through the outlet opening 8. By the rotation of the chamber 1, the resulting ash is applied to the lower end of this chamber and is discharged from there continuously to the ash bridge 6 ^a. The burnt material emerges from the same as the chamber rotates and fresh material falls from space 5 and takes the place of the burned material, while fresh material falls from the filling pipe 7 until the pipe 7 is closed by the accumulated material. The refilling continues as long as the chamber 1 remains rotating, with the ashes being carried away from the lower end of the same.

The rotary movement of the chamber 1 can therefore be used at the same time to the To fill anteroom 5 with the fuel to be processed.

The adjustable feed pipe 7, η ^α allows to keep the fuel at such a height in the combustion chamber 5 that it seals the upper end of the inclined rotary chamber completely tight, so that the carbonic acid generated in the lower part of the rotary chamber by a large amount of in Incandescent fuel passes through to the upper end, where it is transformed into carbon dioxide, before it is continued through the discharge pipe 8. In Fig. 1, the lower end of the filling tube 7 is indicated in three different high positions and the corresponding height of the fuel in dotted lines. As can be seen, the height of the fuel can be adjusted according to requirements.

Instead of attaching the blowpipe 9 above the ash bridge, as shown in FIGS. 1 to 3 it can also be attached underneath it and into the ash channel 10 open (Fig. 4) when the ash is deep enough not to allow air to enter to close. To prevent the ash channel from clogging and the free passage the air is obstructed through the blowpipe, which would occur if the ashes would not be removed from the ash channel quickly enough, can in more suitable Location on the ash channel (Fig. 5) is a space 11 of relatively large capacity, which with the upper end of the ash

Claims (2)

kanales ίο communicates through the opening 12, which latter is of the same width as the ash channel and through which the ash can fall into the chamber 11, in the event that the previously passed into the channel 10 ashes up to the height of the opening 12 has accumulated. The opening 12 of the space 11 is advantageously closed by a flap, which the ash opens itself if necessary. The air or steam supplied through the pipe 9 can be heated beforehand by suitable means. The apparatus described above can be used in the same way to roast or calcine ores or other substances. The calcination is effected by means of air which is introduced through the pipe 9 when the ores are mixed with fuels or, when there is no solid fuel, by the flames and the hot gases produced by the combustion of a mixture of air and fuel gas or by steam introduced at the lower end of the rotary chamber through special openings 9, ga (Fig. 3). In this case it is not necessary to keep the fuel to be treated in the chamber 5 at such a great heat. Furthermore, the apparatus can be used for other purposes, such as e.g. B. to reduce ores, 30 are needed. Λ Patent claims: 1. Apparatus for generating fuel gas from solid materials, for roasting and Calcining of ores and for similar purposes with an inclined reaction chamber rotatable about its longitudinal axis, thereby characterized in that this chamber has an upper one with a material feed device and gas outlet on the one hand and with a lower room on the other hand is in communication, while an ash bridge connects to the lower end of the chamber, over which the ashes get into a canal. 2. An embodiment of the apparatus according to claim 1, characterized in that that the ash channel is below the air supply through an opening with an ash chamber in connection, which when the ash channel is clogged, the conveyed ash picks up and piles up the same up to the air supply prevented. 1 sheet of drawings. Berlin. bridged in the reKJHsdruckEREi.