DE665875C - Gas generator for gasifying solid fuels - Google Patents

Description

Gas generators for gasifying solid fuels The invention relates on a gas generator for gasifying solid fuels, in which the devices for air or air Steam mixture feed and for gas discharge extend into the vicinity of the gasification zone.

According to the invention, these devices are partially cooled by air and partly by water the discharge pipe for the heated cooling air to the intake pipe for the combustion air of the gas engine and the inlet and outlet pipe for the cooling water to the pipeline for the cooling water circuit of the gas engine connected. The joint application of these two measures will achieve that on the one hand the air cooling due to the relatively large amount of sucked Combustion air is extremely effective and that, on the other hand, at the points where water cooling is provided, this is carried out with simple means can be, as special recooling devices and conveying devices for the cooling water are dispensable. It is already known that the air supply or. Gas discharge lines to cool the gas generator with air or water. You already have the cooling air used as gasification air and the generated gas burned in an internal combustion engine. When using water cooling, you either have a fresh water supply or special recooling devices, if necessary together with conveying devices, intended. It has also been proposed to preheat an engine To supply combustion air and the water used for gas cleaning from the cooling water of the engine.

The subject matter of the invention is based on an exemplary embodiment below and explained in more detail on the basis of the drawing, which shows a shaft gas generator in Fig. i in the vertical middle longitudinal section and in Fig. n in the section along line II-II Fig. i shows.

The gas generator has an upright cylindrical shaft i, the jacket of which has a frustoconical constriction a above the gasification zone, to which a truncated cone 3 adjoins as an enlargement at the bottom. Below the narrowest shaft cross-section, a plurality of horizontal nozzles 4 that widen outward are arranged in part 3, the ends of which lie in a sheet metal jacket 5. The jacket 5 is cylindrical in shape and surrounds the two shaft parts 3 and 3. The nozzles 4 are used to supply the gasification air. Steam can be added to this, for the supply of which a pipe 6 is arranged in a ring around the sheet metal jacket. The tube 6 has outlet openings 7 narrowed in the manner of a nozzle, each of which ends immediately in front of or in an air nozzle 4. The ring pipe 6 is fed by a steam pipe 8. Between the shaft constriction 2, 3 and the jacket, an annular gap 9 remains free at the top and a similar gap 10 remains free at the bottom. The upper gap 9 opens into a collecting channel ii, which surrounds the shaft part 2 and, as shown in FIG. 2, has a spiral shape. i % X, and ends in a nozzle 12.

The gasification products are through a "pipe 13 close to the Gasification zone and sucked out of the shaft center. Instead of this one pipe you can several pipes can be provided for the gas extraction, which are individually close to the gasification zone and expediently still within the shaft with one another be united.

The outside air enters the Mante15 through the gap and flows around it in this case the nozzles ¢, which are constantly cooled in this way. The cooling air enters then through the gap 9 into the spiral collecting duct ii and is out of the nozzle 12 extracted as combustion air for the engine operated with the generated gases. The motor takes care of the cooling of the air nozzles by itself Exerted induced draft causes the fresh air entering through the gap io the 4. Nozzles washed around at a speed that ensures their uniform cooling. The resulting preheating of the combustion air prevents the formation condensation in the intake manifold and in the cylinder heads of the engine.

The discharge line 13 arranged within the shaft for the gasification products is cooled with water taken from the engine's cooling water (not shown). It is also possible to use the nozzles q. to cool with water by removing them from the water of the cooling water circuit of the engine can be flushed around. The lines are cooled in the same way as described above if the gasification is sideways are withdrawn from the shaft of the gas generator and optionally with steam mixed air is supplied to the gasification zone inside the shaft from above.

Claims (3)

PATENT CLAIMS: i. Gas generator for gasifying solid fuels, in which the facilities for air or. Air-steam mixture feed and for gas discharge up to the vicinity of the gasification zone, characterized in that when these devices are cooled partly by air and partly by water, the discharge pipe for the heated cooling air to the intake pipe for the combustion air of the gas engine and the supply and discharge pipe for the cooling water are connected to the pipeline for the cooling water circuit of the gas engine. 2. Device according to Claim i, characterized in that the arranged outside the shaft Lines are designed as nozzles and within a surrounding the shaft Sheath (5), which is used to guide the coolant and which this is preferably is fed through an annular gap (io). 3. Device according to claim 2, characterized in that the cooling jacket (5) is attached to a preferably spiral-shaped Collective duct (ii) is connected. q .. Device according to claim a and 3, characterized characterized in that an annular channel or a pipe (6) for the supply of steam around the cooling jacket (5) and the openings or nozzles (7) for the steam are located directly in front of the air nozzles (q.).