DE928063C - Process for smoldering coal to be gasified in a gas generator - Google Patents

Description

Process for smoldering coal to be gasified in a gas generator The smoldering of, coals in the gas generator usually takes place in such a way that a part of the generated generator gas is passed through the smoldering shaft as flushing gas and after the tar has been deposited with the one drawn off below the smoldering shaft larger part of the generator gas is reunited.

In the case of grate gas generators, you also have the flushing gas with the gaseous and vaporous ones Carbonization products for the purpose of cracking or burning the tar down in the gas generator returned in order to save the tar cleaning and above all in this way to eliminate the mostly inferior tar.

In the case of tapping gases, however, this return is when air is used as the gasifying agent not possible without further ado, as this causes the temperature in the gas generator to be too high pressed down and thus the slag tapping is impaired. So you are here forced to lower the temperature by adding air and burning coal or carbonization gas to prevent. However, this has the disadvantage that the gas calorific value deteriorates considerably learns. In addition, the carbonization gas is returned to the lower part of the gas generator per se undesirable in the tapping gas generator, since they reduce the load on the gas generation zone increased and thus the main advantage of the tapping gas generator, the high throughput, is affected.

According to the invention, this difficulty in a gas generator, in particular a tapping gas generator that is heated in a gas-fired heater Wind powered. will be eliminated in the simplest way by the combustion gas of Winderheater is used as purging gas for smoldering. For this it is only necessary the combustion gas at a temperature sufficient for smoldering (approx up to 70o °) from the wind heater into the gas generator smelting shaft. and the Adjust the amount of combustion gas to the smoldering conditions. Doing so will be beneficial the expelled fuel moisture with a branch flow of the purge gas for itself discharged and only the other, essentially only with the actual gas and branch stream laden with vaporous carbonization products after exiting the carbonization shaft fed to the heater as fuel gas.

In the drawing are two for performing the method according to the Invention serving devices shown diagrammatically. When setting up according to Eig. i the wind is introduced into the gas generator lower part I at i and that generated gas discharged at 2. The purge gas (combustion gas from the stove III) is entered at 3 in the smoldering shaft II and carried out at ¢ and then, after Addition of appropriately heated combustion air at 6, at 5 in the heater III introduced. The excess purging gas is discharged from the smoldering shaft at 7.

A fan is switched on at 8 to convey the gas. So far required, a small part of the generated generator gas can be at 9 or also be added to the purge gas outside the gas generator. The wind guide to the heater and from there to the gas generator is indicated by the arrows and the ones indicated Temperatures illustrated.

To the calorific value of the gas generator smelter II to the wind heater III to increase flowing mixed gas, runs in the embodiment according to FIG Gas routing for the smoldering so that the combustion gas coming from the wind heater III at q. enters smoldering shaft II. The smaller part (the excess combustion gas) is branched upwards, where it starts at about 12o ° at 7. the smoldering shaft exit. The greater part of the, at q. introduced combustion gas follows below, into the smoldering shaft and exits again at 3, after something else at 9 Generator gas has been added. The purge gas is then released by means of the fan 8 pressed to the heater III, -vo it, after the addition of hot air at 6, burned will.

As in FIG. 1, the wind guide is indicated by arrows and temperatures.

With this type of purging gas flow, the calorific value of the gas and vaporous carbonization products and the generator gas added at around 9 a considerably smaller amount of flushing gas, since the excess at: 7 is discharged upwards will. The calorific value of the mixed gas exiting at 3 is therefore correspondingly higher.

The combustion: _ gas-heated layer of coal that emerges from your combustion at 7 is adjusted in height so that only drying and heating, but no significant carbonization of the coal occurs, so that as little carbonization gas as possible get lost. In the embodiments according to both FIG. 1 and FIG. 2, the gas generator is below = in no way polluted by the purge gases, so that the gas generator output remains unaffected. In addition, the fan 8 only has the resistance of the fuel layer to overcome in the smoldering shaft and not that of the entire coal filling.

Another advantage of the method according to the invention is that since the combustion gases exit the heater at 500 ° or more, a Significantly higher temperature difference in the boiler and thus a significant reduction the required wind heater heating surface. The heat utilization of the combustion gases is rather cheaper, because the excess gases from the gas generator with only about i2o ° exit.

In the combustion chamber of the heater, especially when using Highly heated wind, the burning of tar with certainty and without disturbance be performed.

If you carry out the combustion in the stove with a small excess of air by, a small amount of oxygen can be introduced into the smoldering zone and thereby the baking ability of the coal can be influenced favorably. Where this is not required is: the combustion is carried out without excess air.

The method according to the invention therefore allows both the smoldering as well as to carry out the wind heating in an expedient and economical manner. It: is both with tapping gas generators and with. Rust gas generators applicable.

Claims (5)

PATENT CLAIMS: i. Method for .Smouldering in a gas generator, in particular in a tapping gas generator, heated by means of a gas-heated heater. Coal to be gasified by wind, characterized in that the visualization of the coal in the gas generator Schwelscha @ cht takes place using the combustion gas of the heater as the purge gas, which is drawn off from the heater at a temperature sufficient for smoldering and adjusted in terms of quantity to the smoldering requirements. 2. - The method according to claim i, characterized in that essentially only the purge gas not used for coal drying after exiting the gas generator smelter is fed to the heater as fuel gas. 3. The method according to claim 2, characterized characterized in that the combustion gas of the heater in the upper part of the Smoldering shaft is introduced and pulls through it in two partial flows, in such a way that that the smaller part is directed upwards and with the main part of the fuel moisture deducted and the greater part passed down and with the actual Gaseous and vaporous carbonization products is led out (Fig. 2). 4. Procedure according to one of claims i to 3, characterized in that the flushing gas before or generator gas is added after it emerges from the smoldering shaft. 5. The method according to any one of claims z to 4, characterized in that the fuel gas passed from the smoldering shaft to the wind heater is burned with superheated wind. Cited publications: German Patent No. 53,487; WJ Müller and E. Graf, "Kurzes Lehrbuch der Technologie der Brennstoffe", Vienna, 1939 pp. 3 0 8 and 3 0 9.