DE817010C - Gas generators - Google Patents

Description

Gas Generators The invention relates to solid fuel gas generators with the introduction of the gasification air into the free surface of the fuel layer.

In the case of gas generators of the type mentioned, the difficulty is a uniform layer height of the fuel over the entire shaft cross-section maintain. If the fuel is introduced centrally, this can only be done with help a rotating agitator or some other mechanical device. However, such parts require cooling because they are directly connected to the hottest fuel parts come into contact. However, the cooling means additional expenditure for production, it requires constant monitoring and can give rise to operational disruptions.

With the invention, the difficulties mentioned are eliminated by that the fuel shaft opens laterally into the gas generator shaft and this is inclined so that the surface of the fuel path is transverse to the axial direction slope of the shaft. A uniform one is thus obtained in a natural way Layer height of the fuel without mechanically operated and cooled Facilities are necessary.

To achieve the desired goal, namely a slope of the diagonally from the Page imported fuel in a possible right angle to the longitudinal axis of the Gas generator shaft lying level, to reach, must be the width of the filling shaft made equal to its inner diameter at the mouth in the gas generator shaft will. First of all, this guarantees that the fuel is filled Distributed over the entire cross section of the gas generator shaft. To what extent now the Gas generator shaft must be inclined so that the fuel actually according to the invention sloping off, is still affected by the shape and size of the Fuel parts, z. B. depend on the coal pieces and the roughness of the shaft walls. Size, highly irregularly shaped pieces of fuel will show less tendency to stack on top of one another to trickle as small, possibly still round pieces of fuel.

In a further development of the invention, the wall of the shaft is at the bottom End interrupted on the top and the gas vent above which is at the interruption freely sloping fuel bed arranged. With this arrangement it is possible to choose the outlet cross-section for the gas so large that the gas velocity even with high loads on the gas generator is still so low that no fuel particles get carried away.

The inclined arrangement of the shaft according to the invention offers special Advantages if the double fire gasification, known per se, is used. The purpose one of these is the constantly increasing one in the lower part of the shaft Proportion of fine fuel particles by maintaining a second fire zone, by a so-called underfire, to be gassed. The total sales performance of the gas generator is increased within certain limits by this double gasification. At gas generators with the usual introduction of the gasification air through the center or at the periphery of the Gas generator arranged nozzles, the gas turnover in the second fire zone is approximately io ° / o of total turnover. In the case of surface gas generators, it can be the same as that of the invention this proportion is due to the more even cross-sectional loading of the upper fire zone be increased to an estimated 20 ° / o.

In the drawing, a gas generator according to the invention is in a longitudinal section for example shown.

The gas generator shaft i, which differs from the commonly used one vertical arrangement is inclined at a relatively large angle, has above laterally the inlet opening 2 for the fuel, for example for coal. the end The fuel enters the bunker 3 via the filling shaft through the opening 2 the gas generator shaft. The width of the filling shaft 2 at the mouth in the gas generator shaft i corresponds to its inner diameter, so that the fuel spreads over the whole Cross-section distributed. The angle of inclination of the shaft i is taken into account the shape and size of the fuel parts and the degree of roughness of the shaft i chosen so that the fuel in the shaft i is at right angles to its longitudinal axis abs. The path lengths for the gasification process from surface 4 to the exit of the gas are therefore approximately the same over the entire cross section of the shaft i great. The gasification air exits from the upper end of the shaft into the fuel surface 4 a.

At the lower end of the gas generator, the shaft wall is on top interrupted, so that the fuel or the mixture of fuel and ash similar to the feed point freely abbansch. The angle of repose is approximately in the longitudinal direction of the shaft. According to the drawing, the fuel offers one relatively large surface for the exit of the gas from the overlying Gas collecting space g is discharged through the adjoining line 6.

To maintain a second fireplace, for example the point at which the lower wall of the gas generator shaft and the wall 7 of the bottom subsequent vertical shaft collide, a second air supply 8 be provided.

The ash emerging from the bottom of the shaft 7 is in the usual way collected in an ash bowl g, most of which is used to seal off the air is filled with water. In a simple design, the ashes can be removed with a Scratches are removed from the ash bowl. -You can do the latter in a similar way the training at rotary grate gas generators and the ash accordingly on an ongoing basis deliver.

Claims (3)

PATENT CLAIMS: i. Solid fuel gas generator with introduction the gasification air into the free surface of the fuel bed, characterized in that that the fuel filler shaft (2) opens laterally into the gas generator shaft (i) and this is inclined so that the surface (4) of the fuel bed is transverse to Axial direction of the shaft (i) abs. 2. Gas generator according to claim i, characterized marked that the `found of the shaft (i) at the lower end on the top is interrupted and the gas vent (6) above the sloping freely at the interruption Fuel bed is arranged. 3. Gas generator according to claim i, characterized by one serving to maintain a second fireplace at the lower end of the shaft, preferably in the inner angle between the end of the inclined shaft (i) and the adjoining vertical shaft part (7) arranged second air supply (8th).