PL10271B1 - A method of obtaining valuable hydrocarbons from various types of coal, tar and similar substances. - Google Patents

Description

When obtaining valuable liquid hydrocarbons from various types of coal, tar and similar bodies, by treating under pressure bodies indicated by hydrogen or with gases that give off it, most preferably in the presence of catalysts, besides valuable liquid hydrocarbons, also residues containing oil, which require a very rational treatment in order to be as cost-effective as possible. It has now been found that the work can be done very economically efficiently by careful heating of the oil-containing residues or mixtures containing these residues sci, most preferably in combination with a hydrogenation process under pressure, exploiting the heat contained in the products. It is also necessary to take measures to prevent the formation of coke from the oil-containing ingredients. The most advantageous work is carried out in such a way that "steam or hot vapors are introduced, especially water vapor, which allows the use of temperatures higher than without these agents for bedding. Apart from these flushing agents, still others can be used. Heating agents, e.g. external heating. The above process may be preceded by a pre-treatment by means of centrifugation, separation, and drifting at normal or elevated temperature. As a canvas, apart from water vapor, a water vapor can be used. \ ^ ol4ors, such as methane, gasoline steam *! similar bodies, but below their decomposition temperature. This procedure can be carried out in various ways, e.g. in shaft kilns, rotary kilns, oxygen gas tanks, in a metal bath, on rotating in belts or rotating discs, etc. Under certain conditions, it may be advantageous to add absorbent or dispersing bodies or as catalysts during the process, which leads to a more advantageous processing residues and obtaining more valuable oils. For this purpose, for example, the addition of brown coal; Flushing agents, such as water vapor, are passed through or over the smolderable material at a suitable speed. An expedient variation of the method is that the oil-containing material is passed by a screw through a closed tube and the hot tissue gas is passed in the same or the opposite direction. In this way, complete removal of the oil is achieved with a considerable amount of material processed. It is also possible to use a screw that is stationary and a rotating tube, or it is possible to rotate the tube and the screw in the same or the opposite direction. For the feeding of the product from which the oil is drained, it is also possible to use salt, with most of The oil is already removed in the screw, by passing through it the hot gases which carry the oil with them. The oil-containing residues can be sprayed together with the gas or canvas vapor in the heated chamber, which significantly increases the cloth effect. The bodies constantly sink to the bottom in a dry and finely crushed state and can be removed with a screw or similar device. The material can be sprayed through nozzles, constructed in a variety of ways. A similar result to the removal of solid gases can also be obtained by applying a vacuum. However, depending on the type of material to be treated, it may be advantageous to use an elevated pressure to reduce gas production and increase the yield of the liquid. The material can also be sprayed with, for example, liquid water. It is very often expedient to gradually raise the temperature and discharge the products produced at various places. When steam is used, the oil is best separated when it is still hot. The drained oils or their fractions can be used to make solid bodies which are subject to hydrogenation under pressure, in particular various types of coal and similar bodies. temperature, you can get oils mostly as heavy oils, especially good for working. You can also choose the temperature in such a way that part of the oil is split into medium oils, suitable for the production of gasoline. Finally, temperatures can be selected so high that valuable gases are formed, especially olefinic gases, which can be further processed in a variety of ways, for example to obtain higher alcohols or solvents, lubricants or similar products. Avoidance of bodies at a certain temperature leading to the formation of gas, for example methane, or to the deposition of carbon. This is especially important when working in a circular cycle. The residues freed from the oil are gassed or burned, and the exhaust gases can be used up by using the heat contained in them, possibly with the addition of other gases or vapors, as a cloth for treating the residues. The residual oil containing oil, possibly - - 2 while still hot, can be fed to the steam generator. A portion of the oil-free, carbon-bearing residue gasifies in the lower zone. The rising hot gases liberate the top layers from the oil. When working in a similar manner, valuable engine gas is obtained in addition to liquid hydrocarbons. Tar and oil mist can be separated from the gases in the usual way, e.g. by washing with mineral oil or other solvent, or by means of an absorbing solid, by electrical means, and thus, after removal of the oil from them, the oil can be gassed directly at a temperature of 800 ° -1000 °, whereby a gas similar to light gas is obtained, and the products after degassing are transformed in a gas tank into power gas or water gas. It is also possible to treat the oil residues with hydrogen under pressure or without pressure, and thus obtain, depending on the working conditions, valuable hydrocarbons, gaseous or liquid. Since the starting material in the hydrogenation is completely transformed and therefore most of the carbon is converted to liquid, then the oil residue left behind is so low in carbon that further processing is not worthwhile. it can be used either directly or after further processing as activated carbon in catalytic and absorption processes, for example as decolorizing carbon. In particular, valuable activated carbon is obtained, since heating is carried out in the presence of catalytically acting admixtures, e.g. metal salts, especially groups 6 - 8 of the periodic system. Oil-free residues can also be used directly or after further processing as a propellant for engines powered by combustible dust. PL

Claims (7)

Patent claims. 1. The method of obtaining valuable hydrocarbons from various types of coal, tar and similar substances, by treating with hydrogen Mb, which gives off its gases under pressure, most preferably in the presence of catalysts, characterized by the fact that the oily components of the residue are stripped off most efficiently with the recovery of their thermal content by careful heating of residues or mixtures containing similar residues. 2. The method according to claim The method of claim 1, characterized in that it is operated by introducing hot gases or vapors, in particular water vapor. 3. The method according to p. 1 and 2, characterized by the fact that the materials subject to deoiling are displaced by means of a screw during processing. 4. The method according to p. 1-3, the significant point is that the oil-free residue is degassed and then preferably gasified. 5. The method according to p. 1 - 4, characterized by the fact that hot gases obtained in accordance with claims 1-4 4 or by combustion of the oil-depleted residues, it serves as a rinsing agent to extract their heat content, possibly with the addition of other gases or vapors. 6. The method according to p. 1-5, the significant point is that the oil-free products are used directly or after further processing as activated carbon. 7. The method according to p. 1 to 5, the significant point is that the oil-free products are used directly or after further processing as a drive for engines powered by combustible dust. I. G. Farbenindustrie A k t i e n g e s e 11 s c h a f t. Deputy: M. Skrzypkowski, patent attorney. Print by L. Boguslawski. Warsiriwa. PL