DE577725C - Method for operating tapping gas generators - Google Patents

Description

Process for operating tapping gas generators for gasifying fuels There are mainly two types of gas generators used, namely the gas generators with grate, in which the slag is removed in solid form, and the ash melting or tapping gas generators in which the slag flows off in liquid form. Since the Rust gas generator requires a relatively low temperature in the fire zone more steam is decomposed than with the tapping gas generator. The tapping gas generator on the other hand works with a higher temperature in the fire zone and thus enables greater Power; it also has the following advantages: lower repair costs, longer service life, iron extraction, easier ash removal and usability of the Slag.

It has now been found that the advantages of both gas generators can be combined can, if you only use the gas generator temporarily, z. B. shortly before and during the tapping period, operates with such temperatures in the fire zone that a liquefaction of the slag takes place, while the rest of the time the fire zone is on a much lower level Temperatures.

You can use the present process, the gas generation both in continuous operations z. B. to generate generator gas or mixed gas as also in discontinuous operations z. B. perform to generate water gas. In the latter case. one adds at certain time intervals, if there is enough in each case Ash has accumulated a special period in which the fire zone on the Melting temperature of the slag is brought, and then takes the purification before. The gas generated during the purification period contains due to the increased Gasification temperature large amounts of carbon monoxide. It can either be shared with the generated water gas or by itself for further use.

The generation of the slag melting temperature in the fire zone of the The gas generator can be generated by increasing the amount of wind or by producing water gas can be achieved by prolonged hot blowing, if necessary with preheating of the Gasification air. In addition, one also has in increasing the oxygen content of the An excellent gasification agent by adding oxygen or Linde air Means to quickly increase the temperature in the fire zone.

Example i A tapping gas generator with a diameter of 2 m is used in an hour long with a Be load of 8,000 m3 of wind and 1200 kg of steam per Hour operated. Thereupon the temperature in the fire zone is increased Load increased to 12,000 m3 of wind per hour without adding steam and after 25 Minutes the ashes are removed liquid. -The detox period lasts 5 minutes. The gas generator is then operated again with the original load.

The throughput in 1.5 hours is 285 kg of coke.

The composition of the gas produced is: 5.3 0/0 CO 2, 26.3% CO, 8.3 0/0 H2, 6o, i% N ".

Examples in a tapping gas zegger suitable for water gas generation, which is expediently provided with steam supply nozzles about 0.3m above the level of the wind form is, 1.5 hours in a known manner, a discontinuous water gas process carried out. The following are introduced: 5050 kg of coke, 53oo kg of steam, 16,000 m3 of wind. The water gas produced has a composition of 3.5% C02, 41.0% CO, 49.3% H. 6.2% N2. Use this to remove the ashes that have accumulated during this period 4000m "> wind blown in for 20 minutes, a gas with 0.9% C02, 33.5% CO, 2.2% HZ and 63.4% N. is obtained. During the last 5 minutes, the Liquid slag tapped off, whereupon the water gas process begins again.

Example 3 A tapping gas generator with a diameter of 0.5 m takes 60 minutes long with an hourly load of 6o into the oxygen and 8okg of steam and then on Operated for 30 minutes with a 40 m3 of oxygen and 40 kg of steam. The tapping takes place before the end of the second period. During these two periods the gas generator pushes through 15 kg of coke; the average analysis of the gas is 12.4 0/0 C02, 52.5% CO, 34.1% H2, i, o% N ,.

Claims (2)

PATENT CLAIMS: i. Process for the operation of tapping gas generators, marked by the fact that the fire zone is only temporarily at such temperatures is held that a liquefaction of the slag takes place, while in the rest Time the fire zone is operated at significantly lower temperatures. 2. Procedure according to claim i, characterized in that the increase in temperature by Increasing the oxygen content in the gasifying agent is made.