SU38549A1 - Carbon cleavage device by electric spark - Google Patents

Description

For splitting hydrocarbons, they are subjected to pressure, introduced into a long horizontal pipe, and then, without air, exploded by ignition from either an electric spark or a heated needle. Then the splitting pipe is cooled with water, the pressure is reduced by opening certain valves by hand, and then, again, the screw closures are opened by hand so that the reaction products can be blown through the pipe and hydrogen is removed. This method takes a lot of time due to the fact that the control of all equipment occurs only by hand.

In the proposed device, all essential operations take place mechanically, for which valves for introducing hydrocarbons, hydrogen or the like to blow out soot are arranged in the form of gate or rotary valves and are driven by means of a shaft with fists. Equally, the ignition of the introduced hydrocarbons also occurs mechanically. At the same time, the space in which the splitting occurs is given a small size.

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So that after each splitting process it can be rapidly cooled and blown. Due to this, the time intervals during which individual movements are performed can be made very short and be precisely set, so that the splitting processes are repeated quickly in a fraction of a minute or a second. In addition, the spring that pushes the valve, which releases the reaction products, can be so adjusted that it acts like a safety valve. .

The drawing shows a vertical section of the proposed device for splitting hydrocarbons with mechanically controlled inlet and outlet valves.

The cylinder 1 is provided on the flanges 2 with a cover 3 into which, on the one hand, a pipe 4 is inserted for supplying hydrocarbons to be split. To the mouth of the pipe 4 is adjacent a recess 5, which closes with a cone of a valve 6, with a rod 7. On the pressure roller 8 of the rod 7 operates a cam washer 9, which sits on the shaft 10 and rotates with it. Fist puck pressure 9

the spring 12 counteracts pushing the stop 11 of the rod 7 and again closes the valve. On the other side of the cylinder, a tube 13 is inserted into the cap 3, supplying hydrogen; here, too, a recess 14 adjoins the mouth of the pipe 13, which is closed by the cone of the valve 15. The valve cone sits on the rod 16, and on its pressure roller 17 acts a puck 18, sitting also on the axle 10. A third of the cam the washer 19 controls the ignition by serving as a contact roller. The cam washer 20, seated on the axis 10 away from the cylinder, acts on the rod 21, which presses the lever 23 movable about the axis of the bearing 22. In the slot of the lever 23, the rod 24 passes, which on the other side of the slot has a thickening. Thus, the lever 23, deflected, carries along the rod 24, which carries the cone of the valve 25, which closes the outlet 26 of the cylinder 1. An extended recess 27 adjoins the opening 26, which closes the plug 28. Two recess enter the recess 27 29, which serve to remove the resulting soot, hydrogen, etc. The spring 31 abutting against the support 30 presses the abutment 32 on the rod 24 so that the valve 25 is in the closed position. Only an increase in pressure in cylinder 1 or the tension produced by lever 23 on rod 24 temporarily opens the valve cone. The jacket 33 serves for cooling water around cylinder 1. The shaft 10, which is driven by a small electric motor, sets its fists in such a way that all the valves are closed. Upon further rotation of the shaft 10, the valve 6 first opens and injects hydrocarbon into the cylinder 1 or the like. After the cylinder is filled, the valve 6

is closed, and then the ignition of the carbon-hydrogen occurs through the fist 19. Then the valve 25 opens, so that the reaction products can escape through the tubes 29. The fist 20 holds the valve 25 open and, moreover, the valve 15 opens, so that the pressurized hydrogen can rush into the cylinder and blow it through the pipes 29. Thereafter, both the valves 25 and 15 are closed again and all the processes are repeated. Inspection of the structure of the individual parts of the device for splitting the repetition of all processes can be brought to extreme speed. Depending on the calculations of the force of the spring 31, the pressure from the explosion may already open the valve 25, so that cylinder 1 does not have to hold either too much pressure or too high temperature. The glow plug 34 is located in front of the hydrogen outlet, so that the hydrogen rushing into the cylinder washes the candle and cleans it from soot that can stick. In the same way, the cone of the valve 25 is always raised only to an insignificant height and, due to blowing with hydrogen, when it is settled into place, it is clean and does not allow gases.

The subject of the patent.

A device for splitting hydrocarbons by means of an electric spark in a periodically operating apparatus, characterized in that sequential opening and closing of hydrocarbon inlet valve 6, valve 25 producing reaction products, and valve 15 introducing hydrogen for purging use a common cam actuator 10. to patent in-tsev A. Fechter and F. Burger G 38549

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