DE2038445C3 - Gas generator for fine-grain coal fuels - Google Patents

Description

The invention relates to a gas generator for fine-grain coal fuels, consisting of a combustion chamber with one or more burners and slag discharge arranged underneath, as well as the Combustion chamber downstream steam boiler with radiation and contact part, the radiation part of the steam boiler has an axis parallel to the vertical axis of the combustion chamber shaft and a discharge device with inclined surfaces for entrained gas flow and reduced gas flow in a zone separated fly ash, slag and the like is provided.

Such a gas generator is known from DE-AS 10 23 549. The radiation part of the steam boiler is arranged coaxially with the combustion chamber or the combustion chamber shaft and its cross section corresponds to that of the combustion chamber shaft. Between the upper end of the radiation part and the upper end of the contact part arranged next to it, a horizontally extending tubular connecting channel is provided, which is designed as a double jacket. This connecting channel is narrowed several times in the course of the gas path and widened again so that the flow rate of the gas flowing through is subject to multiple changes. The fly ash accumulating at the enlarged points of the sewer. Slag and the like are directed over inclined surfaces / u outlets through which mc can be removed.

The disadvantage of the known coal gasifier. dall the gases generated by the combustion chamber and solids entrained by the combustion chamber, beslehend .ms iinbrennh.nen oiler unver burned constituents of the fine-grained coal, at high speed through the radiation part of the Steam boiler are transported through and then get into the horizontal connecting channel. It is it is inevitable that these solids, which are often found in Form of doughy slag accumulate, come into contact with the wall of the radiation piece and close there Lead to deposits. This applies in particular to the area of the transition from the radiation part to the horizontal connecting channel, where the solid particles are entrained by a sharp change in direction of the gas be ejected.

The invention is therefore based on the object of providing a gas generator for fine-grain coal in this way to train that very early after leaving the combustion chamber chess, the entrained solids be excreted to a large extent from the generated gas.

According to the invention it is proposed for this purpose that the combustion chamber shaft is eccentric to the cross section of the Radiation part is arranged, which is larger than the cross section of the combustion chamber shaft, and that the discharge device next to ecm combustion chamber shaft a.-i adjoins the bottom of the radiation part is arranged.

The inventive design of the gas generator ensures that when you leave the Combustion chamber the flow velocity of the gas is suddenly reduced. This has the consequence that the larger or heavier solid particles fall out of the gas stream and are therefore no longer in may or may not come into contact with the wall of the radiation element to a significant extent more of the gases up to the contact part of the steam boiler can be carried. This solid matter rather take a somewhat inverted U-shaped path on which they come from the mouth of the Combustion chamber shaft to the discharge device.

A preferred embodiment of the invention is that the .Strahlungteil the two to three times the radius of the chamber chess, the eccentricity of which is a quarter to half the radius of Part of the radiation corresponds to. It has been shown that with such a dimensioning any disturbances no longer occur due to deposits in the radiation part as well as in the downstream contact part. In addition, there is also nothing left in the radiation section that would impair the heat transfer through radiation Dust cloud more. Very light or very fine particles in the radiation part designed according to the invention do not fail, they also easily pass through the contact part and can pass through electrostatic precipitators or the like, optionally also by wet scrubbers, are deposited behind the steam boiler.

The invention finally provides that the discharge device with a discharge shaft to the the inclined floor of the radiation part receiving the combustion chamber shaft opening is connected.

In the following the invention is based on a only a drawing showing an exemplary embodiment explained. It show in a schematic representation

F i g. 1 shows the side view of a gas generator designed according to the invention.

I i JJ. 2 shows a section in the direction AB through the gas generator according to FIG. 1.

The gas generator shown in the figures consists in its basic structure initially

Combustion chamber 1 mil substantially vertical axis of the combustion chamber. one or more burners 2 and slag extractor 3 arranged underneath, the combustion chamber 1 being followed by a steam boiler 4 via the combustion chamber shaft 17, which consists of a radiation part 5 and a contact part 6. The steam boiler 4 as a whole, that is to say over the radiation part 5 and the contact part 6, also has a vertical axis that is parallel to the axis of the combustion chamber and the combustion chamber shaft. From Fig. 1 and 2 it can be seen that the combustion chamber 1 with the mouth 7 of the combustion chamber shaft 17 is eccentric to the cross section of the radiation part 5 and the radiation part 5 has a larger cross section than the combustion chamber shaft ¹ .. On the side facing away from the combustion chamber 1 is located a discharge device 8 for fly ash, entrained, cooled slag and the like, which are deposited in the syrup part. In the exemplary embodiment and according to a preferred embodiment of the invention, the heating part 5 has a radius 9 which corresponds to two to three times the radius 10 of the combustion chamber shaft 17. The eccentricity II makes up a quarter to half of the radius 9 of the radiation part 5. The discharge device 8 exist! In the exemplary embodiment and according to the preferred embodiment of the invention, an inclined base 12, which closes off the radiation part 5 at the bottom, has a cover 13 and discharge duct 14. The opening of the combustion chamber shaft 7 lies in the inclined base 12 the diameter of the radiation part 5. Combustion chamber 1. Combustion chamber shaft 17, jet

i.s lung part 5 and discharge device 8 are made of boiler tubes 15 built. The boiler tubes are connected to a uniform boiler system that is only indicated in the figures 16 connected.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: ! Gas generator for fine-grain coal fuels, consisting of a combustion chamber with an or several burners and slag discharge arranged underneath as well as the combustion chamber downstream Steam boiler with radiation and contact part, the radiation part of the steam boiler has an axis parallel to the vertical axis of the combustion chamber shaft and one Discharge device with inclined surfaces for entrained gas flow and reduced gas flow in one zone Separated fly ash, slag and the like is provided, characterized in that the Combustion chamber shaft (17) is arranged eccentrically to the cross section of the radiation part (5) which compared to the cross section of the combustion chamber; eighth is larger, and that the discharge device (8) is then arranged next to the combustion chamber on the bottom of the radiation part. 2. Gas generator according to claim 1, characterized in that the radiation part (5) the two to three times the radius of the chimney chess (17), the eccentricity (11) of which is a quarter up to half a radius of the radiation part. 3. Gas generator according to claims 1 and 2, characterized in that the discharge device (8) with a discharge shaft (14) to which the combustion chamber shaft mouth (7) receives Inclined bottom (12) of the radiation part is connected.