DE343814C - Method and device for the separate production of carbonization gas and generator gas - Google Patents

Description

Method and device for the separate production of carbonization gas and Generator gas. According to the invention, the combustion gases containing carbonic acid occur from the combustion layer of the gas generator initially into a closed cavity, or is covered by the smoldering chamber, and from there by one with the degassed; Coal-covered inclined grate, whereby they are reduced to generator gas. The three characteristic layers of the gasification process, namely the combustion layer, the reducing layer and the degassing layer are therefore all around the cavity attached around.

Fig. R shows a gas generator suitable for the process in vertical section, the characteristic part of which is the double cone formed by the low temperature chamber d, h and the reduction grate in, above the combustion chamber yz, which encloses the cavity q. The combustion gases from the combustion chamber n enter this cavity q, in order then to be drawn off through the hedulation grate m as finished gases up to the consumption line s, whereby they still coat the smoldering chamber d, h from the outside.

The operation of the gas generator is organized as follows, aßen: Der Fuel enters the hopper a from below through combustion gases and bell-shaped degassing or degassing units heated from above by the withdrawn finished gases Smoldering chamber c.

This has a fixed base d and one rotatable in the ball bearing e suspended ceiling driven by worm f with worm wheel g h. Latter has plow-like scratches i, by means of which at the. rotation the Cover h the gradually degassing fuel, while the carbonization gas through .den Funnel b escapes into line j, is conveyed into the annular space k. The space k is limited inwardly by the downward extension of the Schwelkaminerbodens d and to the outside through the annular wall 1, which is after adjoins the bell-shaped ceiling 1a at the top, while according to ink @ n; one himself represents tapering conical surface in the inclined grate in all around and above of the combustion shaft is continued. From the ring-shaped space k the fuel falls on the incline, from the lower conical part of the wall l and, the annular inclined grate formed side wall of the chamber q. where he is in the upper Part is heated first, then over the grate part is gasified, and from where it is finally in the shaft-shaped combustion chamber n for complete combustion with forced air comes out of the wind pipe r.

The combustion gases enter: into the chamber q, the walls of which they heat, and, since they find the least resistance here, pull through the grate m, whereby they are turned into generator gas by the glowing carbon. The generator gases pull in the direction of the arrows between the housing wall o on the one hand and on the other the wall l and the ceiling la, which they give off their waste heat. into the consumption line , s.

Fig. A shows a rectangular gas generator for the execution of the Method according to the invention in vertical section. The characteristic feature This embodiment forms the traveling grate 1 'on which the fuel burns is, as well as the one above the combustion chamber i ', of the smoldering chambers c 'and f' surrounding gas discharge space p '.

Here the fuel comes from the filling funnel d first through the transition connection b 'into the degassing chamber c', in which it is gradually conveyed by a scraper belt d 'to the other end of the chamber, where it passes through the gap e in, the lower degassing chamber f ', which has a similar scraper belt as chamber c', which conveys the fuel into the space ä ', from where it reaches the inclined side wall 1a' of the chamber i. From here it reaches the inclined grate j ', preheated, where it is itself partially gasified by the gases flowing through, when they are reduced. Then passes -the fuel on the inclined wall, k 'and k from there to complete combustion on the convertible <: rr ost l', that of the lead t 'forced air obtained and the ashes conveyed in the water box. The combustion gases of the traveling grate first heat the walls of the chamber i ', then pass through the inclined grate j', where they are reduced to generator gas. * The generator gases pass through the gap n between the venting chamber f and the generator, housing c 'into the generator gas chimney p', where their heat is transferred to the two venting chambers c 'and f located above and below the generator gas chamber. Finally, they escape through the opening q 'into the consumption line r'. The carbonization gas developed by heating the fuel in the degassing chambers c 'and f' escapes from the nozzle s'.

It can also be the compound layer, for example when using by pulverized coal firing, on top or on the side or as an inclined grate on the side and accordingly the degassing layer and the reducing layer laterally or be attached below. The cavity that receives the combustion gases is always the mediator for the simultaneous effect of the heat of combustion on the reduction and degassing layers.

Claims (3)

PATENT CLAIMS: i. Method of operating a gas generator, in which the combustion gases containing carbon dioxide are emitted from the combustion chamber. into a closed space, which is covered by the swell chamber, characterized by the fact that the gases from this space (q, T) are discharged through an inclined grate (na, j ') covered with the degassed coal. 2. Gas generator for performing the method according to claim r, thereby - that it is designed as a double cone over the combustion chamber (s) which is covered by the smoldering chamber (d, h) which is swept outside by the finished gases and is provided with the step grate (in) in the lower conical surface. 3. Gas generator for performing the method according to claim i, characterized in that the combustion is carried out on a traveling grate (l ') and above the combustion chamber (i') a gas discharge space (p ') surrounded by smoldering chambers (c', f) is appropriate.