SU50979A1 - Method for producing boron carbide - Google Patents

Description

In order to obtain liquid hydrocarbons from solid combustible materials, it has already been proposed to apply a high-frequency electric field to a mixture of gaseous products of the distillation of solid combustible materials with other gases suitable for this purpose. It has also been proposed that ultraviolet rays be applied to the gaseous products of distillation in order to produce liquid hydrocarbons; However, both of these methods do not provide practically sufficient output of the final product.

The method according to the present invention is that the dry distillation gases of solid fuels mixed with gases containing hydrogen and carbon monoxide are subjected to simultaneous exposure to a high-frequency electric field and ultraviolet rays, and the gas mixture is preheated to a temperature not lower than 300 ° . As a gas containing carbon monoxide, it is advantageous to use water

gas mixed with and. and impurities of hydrogen.

The proposed process is carried out as follows. The coal is coked first at a low temperature (about 500), and then at a high temperature (about 900 ° C), with the result that, as is well known, along with coke and tar, a gas is obtained consisting of methane, carbon monoxide , hydrogen and carbon dioxide.

Then, coke (better semi-coke) is burned in gas generators and produce water gas containing mainly hydrogen and carbon monoxide mixed with nitrogen and carbon dioxide.

The hydrogen required for the process is obtained by the usual method of decomposing water in the gas generators.

The three gas mixtures mentioned are directed to a common receiver and heated, for example, to 600 °, after which the gas mixture is subjected to an electrostatic field voltage of several tens of thousands of volts and

at the same time - exposure to ultraviolet rays emitted, for example, by a mercury lamp.

Under the influence of these factors, among others, the following reactions take place:

. CO-f-3H, CH, + H, O (steam),

methane is further decomposed according to the equation

2СН4 С2Н2 + ЗН ,,

and, finally, acetylene, interacting with hydrogen, forms various unsaturated and saturated hydrocarbons, which after condensation form a mixture similar to natural oil.

The high frequency field should have a voltage of about 80000-100000 volts and a current of less than a milliampere when the distance between the electrodes is 8-10 cm.

Ultraviolet and gas flow patterns should be countercurrent.

As it turned out, the ultraviolet rays, besides the fact that they play

The role of the catalyst, have the ability to inform the gases through which they pass, greater susceptibility to the influence of the electric field, so that much thicker layers of gas can be exposed to this floor than in the absence of these rays, which increases the yield of liquid hydrocarbons.

The subject matter of the invention.

A method of producing liquid hydrocarbons from gases obtained by dry distillation of solid fuels, mixed with gasification products of solid fuels containing carbon monoxide and hydrogen, by applying an electrostatic field, measured in tens of thousands of volts, and ultraviolet light, characterized in that the gas mixture, heated to a temperature not lower than ZOO, is subjected to the simultaneous action of an electrostatic field, formed in the usual way between two electrodes, and ultraviolet light.