DEP0044987DA - - Google Patents

Description

BAIiISGHK AIIILXS- 4 SOBA-FABBIE

I. "larbenindustrie Aktiengesellschaft" Xn dissolution ¹¹

Our sign »O« Z «15 521«

Ludwigshafen a / Eh, June 3, 194-9

ρ 44 987 ITa / 23 a. Hb / fct.

Process for the division of olefins from Clrüokestand, Asphaltene and derpl,

It is known to be in a layer of fine-grained fuel with the gasification material moving by means of the gasification agent and with the simultaneous introduction of bituminous coals or liquid fuels to produce high-temperature water gas that contains unsaturated hydrocarbons such as ethylene, propylene and derglo, contains. Me yield of unsaturated »in particular gaseous hydrocarbons », however, can be used in many cases to be desired *

Ba has now been found to give good yields

obtained at this valuable hydrocarbons, in particular to IthyIeη in verhältnlsmässig low consumption of solid fuels when enriched by Heißblaaen the fuel layer by means of air or oxygen enriched air to over ^9Οθ β not to totally vaporizable, residues of mineral oils and tars, asphalts, pitches and The like. With the help of strongly superheated steam or carbonic acid evenly distributed into the fuel layer moved from below or from the side by means of steam or carbonic acid, and ensures that the temperature does not fall below 800 ° during this endothermic period. This gives gases which contain 40 pounds or more of unsaturated, in particular gaseous hydrocarbons

It is important that the high temperatures in the fuel are not maintained in this process and that sufficient quantities of oil residues or the like are always introduced in finely divided form. In general, it is recommended to introduce at least ί liter of pressure or the like for every 100 liters of solid fuel per minute; advantageous even more, e.g. 2 to 5 liters and more. The amount to be added is self-determined

1X4 / 49.

-2 = 15,521

ivecwe ri.de-sen fixed. Always adjust the fuel and demy to the oil residue used.

The consumption of solid fuels in the endothermic period is relatively low ¹ , since the oil residues introduced react mainly here Fuel layer by means of exothermic gasifying agents until a bright red glow is achieved, ie a temperature of the bed of about 950 to 100,000; then the endothermic period follows, in which it is best with von. water vapor introduced below the fuel layer is set in a gently undulating, so to speak boiling motion; At the same time the oil residue or the like is sprayed sideways by means of steam or carbon dioxide through a nozzle, close to the grate, into the fuel bed. This increases the boiling movement of the fuel bed. «In the case of smaller gas generators, 2.B. those up to about 1 m in diameter, a single feed point is sufficient; In the case of larger gas generators, e.g. those with a diameter of 2 m and more, it is advisable to dust the oil residues in more than one place The heating-up period is very short »Bs are also fine coals with a high ash content, e.g.« B. one of 20 - 40 fi _t can be used well. "It is particularly advantageous to carry out the process with such inferior coals. It is advisable to use the solid fuel as fine-grained as possible, ie with a grain size of 0.5 to 6 mm.

Example.

In a small gas generator with an internal diameter of 45 cm and an internal height of 200 cm, a 100 cm high Layer of fine coke with a grain size of 1 to 5 mm with air while moving the fuel to 950 °. The space occupied by the pein coke is around 150 liters. After the hot blowing, the glowing layer of coal is pushed through the grate from below with steam overheated to 300 ° in a slightly agitated, so to speak "liquid" state and now at the same time at a height of 35 cm above the grate in

-3 = 15,521.

the glowing fuel bed is a distillation residue heated to about 300 ° of a mineral oil that only begins to melt at 30 ° by means of superheated water vapor at 300 ° dusted 10 liters of this residue are blown in over the course of 3 minutes in this way Bed sinks to about 850 °. Then the burned Fsinkoks, about 10 liters, is replaced and the bed is restored to 950 ° hot-blown »In 3 minutes each became 10 liters

oil residue 5 to 6 nr of a gas of the following composition receive?

CO ₂ «. H ₂ S $ 2.3

O ₂ H ₄ 24.6 H

C ₅ H ₆ -9.9 $

C ₄ H ₈ $ 3.2

CH ₁₀ etc. 3.2 i »

CO 5.1 *

H ₂ 20.7 *

GH ₄ 19.3 *

CgHg uswo 8.3 #

ST ₂ 3.4 *.

A liquid can be separated from the gas consisting essentially of benzene, toluene and xylene «

Claims (3)

Patent claims: Io Process for the production of - in particular gaseous - olefins by introducing oils that do not fully evaporate, oil residues, asphalt, pitch and the like into one Layer of fine-grained fuels with movement of the gasification material a by means of gasification agents, characterized in, that after hot blowing the fuel layer on over 900 ° the mentioned substances with the help of strongly superheated steam or coals are evenly distributed in the did not move fuels, appropriately close to the east, be atomized and care is taken that the temperature of the fuel layer in this endothermic Period does not drop below 800 ° ο -4- 15 521. 2. The method according to claim!, Thereby marked that at least 1 liter of the oil etc. Introduces solid fuel per minute for every 100 liters. 3. The method according to claim 1, characterized marked that one inferior bad coal with high A 'salary used. BADIAN AHIlIir & SOM FACTORY