DE711348C - Process for the cleavage or pressure hydrogenation of hydrogen-rich hydrocarbon oils - Google Patents

Description

Process for the cleavage or pressure hydrogenation of hydrogen-rich hydrocarbon oils It has been found that the cleavage and / or pressure hydrogenation are richer in hydrogen Hydrocarbon oils that contain more than 5 g of hydrogen per carbon, z. B. obtained by reduction of carbon dioxide or other correspondingly hydrogen-rich Mixtures of hydrocarbons, high yields, of gasoline or less splitting ones Conditions on hydrogen-rich diesel oil can be achieved and those in the cleavage or splitting hydrogenation of hydrogen-rich hydrocarbon substances otherwise occurring Formation of larger amounts of gaseous hydrocarbons is avoided if one for cleavage or pressure hydrogenation, used as highly effective catalysts, their activity previously less hydrogenated by use in cleavage or pressure hydrogenation carbon-containing substances in the liquid or, appropriately, in the gaseous phase, im the latter case by using an above standard, expediently above red lying oil partial pressure, one about 5o to roo 'above the optimal gap resp. Pressure hydrogenation temperature lying around or or for a very long time Duration of use, has been weakened considerably.

Suitable as highly effective catalysts for the aforementioned pretreatment especially silicic acid, especially when splitting. expedient those that contain alumina at the same time, e.g. B. natural aluminum hydrosilicates, such as bleaching earth or synthetically produced substances that z. B., from a mixture of a wet inorganic gels with a metal salt solution by adding a precipitant for the metal salt or by heating and boric acid is added to them if necessary2. Also siliceous Substances produced by: falling water glass with water-soluble metal salts and voliständiges or partial leaching of the metal was obtained, as well as gel-like aluminum oxide in a mixture with boric acid show a good catalytic effect. Highly effective catalysts for the pretreatment pressure hydrogenation are above all heavy metal sulfides, in particular the sulfides of the metals of the 5th and 6th group of the periodic table or the iron group, or also the oxides of the metals of the 5th to 7th group or mixtures of these substances.

The highly active catalysts are used, for. B. first for splitting or for the splitting or refining pressure hydrogenation of low-hydrogen starting materials, such as tars, tar oils, asphalt- or mixed-basic crude oils or their high-boiling ones Fractions or high-boiling pressure hydrogenation or extraction products of Coals or peat in the liquid phase, for at least several hours, appropriate for several days or more. The effectiveness of the Enter catalyst without. but deposition of asphalt on the catalyst entry.

The catalysts can also be used for the hydrogen-rich ones before they are used Substances in the processing of low-hydrogen substances, e.g. B. tar oils, in the Use the gas phase, the partial pressure of the oil being more than it is for cleavage or pressure hydrogenation 'Is customary in the gas phase, expediently more than r o at, z. B. 15 at and more. It is adapted to the hydrogen content of the starting material in such a way that it is richer in hydrogen Raw materials are processed at higher oil partial pressure. Less hydrogen when processed It is expediently more than 2o at for petroleum oils.

In the treatment mentioned, the catalyst is used with a lower hydrogen content Starting materials in the gas phase until its activity is reduced to such an extent that that they are also used when the catalyst is reused for cleavage or pressure hydrogenation different starting materials have not reached their old level again.

You can also use the oil partial pressure and the temperature during the pressure hydrogenation Keeping low-hydrogen starting materials within the usual limits, but then a: long period of use, about half a year or more, is required before the catalyst can be used to process hydrogen-rich substances.

The low-hydrogen treatment; r substances used catalysts -be in the; -cission or pressure hydrogenation of water-destructive substances, z. B. Middle oils or Schmicri: le, used. Such catalysts are particularly suitable for the cleavage or hydrogenation of the hydrocarbons obtained by the reduction of carbon monoxide, z. B. Kogasin. This results in a low formation of gaseous hydrocarbons good yield of gasoline or when working under less cleavage conditions, especially with the simultaneous supply of hydrogen under pressure, good, hydrogen-rich diesel oils. Those used for the treatment of low-hydrogen substances Catalysts are also very polluted for refining pressure hydrogenation hydrogen-rich hydrocarbons, e.g. B. of reduction products of carbon monoxide, which contain small amounts of organic oxygen compounds are suitable. example Over in the reaction vessel, firmly arranged tungsten disulphide - at 4.10 - becomes a of about zoo to 400 'boiling tar oil for 3 days together with hydrogen under one Pressure of 2ooat at a partial pressure of the tar oil of 13 at. The activity of the catalyst has here. decreased by about 250o. Thereupon an between 200 and 325 - boiling hydrocarbon mixture obtained by reducing carbon dioxide passed over the same catalyst at the same temperature and the same pressure. A product consisting of 70,000 gasoline is obtained. Only 60'o of the raw material have changed into gaseous hydrocarbons.

If, on the other hand, the hydrocarbon mixture obtained by reducing carbon oxide is passed through all other things being equal, over tungsten disulfide that had previously been used for several hours was treated with hydrogen sulfide without first using a pressure hydrogenation to use, then 17Q o of the hydrocarbon mixture go into gaseous hydrocarbons above.

Claims (1)

PATIs1TANSPIeCC1i1 ?: 1. Process for cleavage or pressure hydrogenation Hydrogen-rich hydrocarbon oils, which have more than j5- hydrogen = per ioog carbon contain, thereby gelceniizeiclinet that one is known as highly effective catalysts used, their activity beforehand through use in the splitting or pressure hydrogenation of low-hydrogen, carbon-containing substances in liquid or expediently in the gaseous phase, @ in the latter case by using a. above the usual Ölp.artiäl @: pressure, one by about 5o to 10o ° above the optimum cracking or pressure hydrogenation temperature Temperature and / or due to very long periods of use. a. Process according to Claim i, characterized in that the for the treatment Low-hydrogen starting materials used catalysts for cleavage or pressure hydrogenation of hydrocarbon mixtures obtained by reducing carbon dioxide, used.