DE1046605B - Process and device for the production of unsaturated hydrocarbons - Google Patents

Description

Method and device for the production of unsaturated hydrocarbons As shown earlier (UK Patent 711 208), this can be Process for the production of acetylene and other unsaturated hydrogen z. B. ethylene, by partially burning a hydrocarbon fuel with Air or oxygen with pyrolysis and / or cracking of the excess hydrocarbon and cooling the gaseous reaction products that arise under these conditions, improve considerably if the cooling is carried out in such a way that the gaseous Reaction products can expand in a gas turbine, doing mechanical work Afford.

The present invention relates to a method and a preposition for the production of acetylene or other unsaturated hydrocarbons under Use of a gas turbine.

A prerequisite for the procedure is. that the hydrocarbon and the oxidant are preheated separately and then together in a combustion chamber be reacted, the hydrocarbon in excess over the amount necessary for complete combustion with air or oxygen got to; the heat of combustion then causes pyrolysis or cracking of the excess Hydrocarbon.

NIan must ensure that the gases are brief but well-defined The period of time called the "dwell time" remains at this high temperature, whereupon it as soon as possible to a temperature not higher than 20QO C. The cooling can take place in whole or in part in a gas turbine, It follows from the above that the combustion chamber used for combustion is as follows Requirements are to be made: 1. It must for the stable combustion of the required be capable of very rich mixtures.

2. The combustion must take place in a very short period of time.

5. The burner must be uniform with preheated supplies of hydrocarbon fuel and oxygen arenas.

4. The heat loss during the residence time in the combustion chamber must be small.

5. The flow rate of gas must be high enough to meet the requirements the turbine to suffice.

6. The combustion must be stable, i. H. be uniform when the combustion chamber works under pressure or under pressure fluctuations.

An attempt was made to meet the requirement listed under 2, by using a burner in which the reactants are in front of their entry be mixed into the combustion chamber. However, this brings a limitation on the just affordable degree of preheating and also affects the Uniformity of combustion, especially with pressure fluctuations.

The present invention relates to a method and an apparatus for the production of acetylene and other unsaturated hydrocarbons imperfect combustion of liquid or gaseous hydrocarbon fuels with air or oxygen under temperature conditions conducive to cracking and / or to Pyrolysis of the excess hydrocarbon will result in the products of combustion be cooled quickly. The device includes a combustion chamber and a fuel nozzle to inject a jet of hydrocarbon fuel into the combustion chamber, furthermore an impact element which is arranged such that it opposes the jet and thereby spreading the fuel into a thin film, as well as distribution means to the Supply of air and oxygen to the thin film of fuel to burn it and means for withdrawing the products of combustion from the combustion chamber.

In order to produce acetylene, the combustion produlites must be rapid are quenched, and to accomplish this rapid quenching is preferred connected to the combustion chamber a gas turbine, in which the combustion products an adiabatic expansion can be subjected to their rapid cooling leads.

In a particularly suitable embodiment, the thin A plurality of fuel film, air or oxygen-supplying distribution devices of inlet openings which the wall of the combustion chamber distributed around the nozzle Break through places and are in communication with one arranged outside the chamber Manifold. The axes of the openings can run parallel with that of the Nozzle, or they can be angled slightly inward. If necessary, a single inlet opening surrounding the nozzle in a ring shape may be provided.

The combustion chamber is preferably axially short cylindrical chamber, on the axis of which the fuel nozzle and the baffle element are arranged are, expediently, the area of the impact element is relatively small is opposite the cross-sectional area of the combustion chamber.

The devices for discharging the combustion products include preferably an annularly subdivided outlet opening which surrounds the impact element and the interior of the combustion chamber with a manifold for the combustion products connects. Such an outlet opening can, for example, be in the form of several individual outlets or provided in the form of a single outlet of annular shape in the wall of the chamber be.

A gas turbine is used as a cooling device for the combustion products used with axial loading, so is the collecting line for the combustion products expediently of an annular cross-section, the ring diameter of the outlet opening to the outlet nozzle is continuously reduced to a converging one To achieve leadership of the combustion products. In a preferred embodiment a collecting line is provided, which is in the form of a space between a conical body and a likewise conical extension of the combustion chamber stretched itself, in which case the impact element is in the form of a cylindrical projection which is located in the center of the base of the conical body.

The quick and effective intermediate between the hydrocarbons that can be achieved in this way and the oxygen-containing gas within the combustion chamber undergoes premixing these substances are completely superfluous.

The device can therefore have a preheater for one or both Substances be provided, whereby the degree of efficiency of the reaction increases and increases it is immediately avoided that the combustion becomes uneven, even if the Propagation speed of the flame is lower than the speed of the different gases. The only limit for the preheating temperature is given by economic aspects that affect the procedure as a whole, and by the possibility that the hydrocarbon fuel is already in the preheater could be cracked.

The combustion chamber and the baffle element can be made of heat-resistant Material made of heat-resistant coated metal or a suitably cooled one Made of metal, the cooling optionally by heat exchange of one or both reactants can be carried out.

A feature of the combustion chamber is that it becomes a very high uniformity (stability) over a wide range of mixing ratios and pressing leads. For example, propane and air were in a volume ratio of 1: 120 as the limit for a poor mixture and 1: 1.45 as the limit for a rich one Burned mixture. For methane and oxygen is a perfectly uniform, stable one Working in an area is possible in which the volume ratio of methane to oxygen is between 2.61: 1 and 1.3: 1; this range corresponds to the one in general when cracking hydrocarbons in the gas turbine is considered to be the working area. The combustion chamber has been shown to operate stably within this range up to pressures of 5 atmospheres.

The invention also relates to a method for producing unsaturated Hydrocarbons from saturated hydrocarbons by pyrolysis or cracking saturated hydrocarbons by partial combustion in the above described Contraption.

Two preferred embodiments are described below with reference to the drawing the device according to the invention described.

Fig. 1 is a longitudinal section through a combustion chamber with a gas turbine cooperating with radial inflow; Fig. 2 shows in longitudinal section a combustion chamber for use with an axial inflow turbine.

In the device of Fig. 1, the combustion chamber is limited by the walls 1 and 2 formed from circular areas, which, as shown, within a cylinder tube 3 are arranged. A fuel line 4 leading into a nozzle 5 runs out, runs axially through the center of the wall 1.

A centrally opposing impact element 6 is formed on the wall 2. A number of inlet channels 7 which the wall 1 around the fuel line around in penetrate on the chamber axis to running direction, is used to distribute a oxygen-containing gas, which is fed via the collecting line fed by line 9 8 is fed to the thin fuel film, which exits through the nozzle 5 and the fuel jet impinging on the impact element 6 is formed. An exit opening in the form of several radial outlet holes 10 is in communication with a manifold 11 for the products of combustion passing through the pipe 3, a coaxially arranged therewith Tube 12 and the annular end plates 13 and 14 is limited. A tube 15 is used for forwarding the combustion products from the collecting line to a turbine with radial loading, as indicated schematically as T.

In the embodiment of the device according to FIG. 2, the parts act a combustion chamber 20, namely a cylindrical part 20 and a coaxial one conical body 25 together to form an annular outlet opening 24 and a converging Form manifold 25 for the combustion products, which the opening 24 with an outlet nozzle 21 connects, which in turn with a schematic at 27 indicated gas turbine cooperates with an axial impact. Parts 4, 5, 6, 8 and 9 correspond to parts with the same reference numerals of the device according to FIG Fig. 1.

In the case of partial combustion with pyrolysis or

Cracking the hydrocarbons contained in the combustion chamber According to Fig. 1 or 2 formed combustion products sufficient amounts of unsaturated Hydrocarbons.

Example 1 In a device which essentially corresponds to that shown in Fig. 1 corresponded to the embodiment shown, were commercially available pure propane and commercially available pure oxygen in a ratio of 0.9: 1 without preheating in burned during a trial.

The reaction products were quenched with water. They had the following Composition: acetylene ................. 9.0 percent by volume ethylene .................. 8.5 carbon dioxide ............ 3.5 oxygen. . . . . . . . . . . . . . . . 1.0 Hydrogen .............. 50.0 carbon monoxide .......... 23.0 remainder (mainly consisting of from saturated hydrocarbons) ....... 5.0 100.0 percent by volume Example 2 In an apparatus which essentially corresponded to FIG. 2, methane and oxygen in a volume ratio of 1.65: 1 under the same conditions as in the example 1 partially burned. The methane used contained 7.5 per cent nitrogen and 7.09 per cent Carbon dioxide. The reaction products withdrawn from the combustion chamber had the following composition: acetylene ................. 3.4 volume percent carbon dioxide ............ 6.0 oxygen 1.5 hydrogen .............. 56.3 carbon monoxide .......... 25.5 remainder (consisting mainly of some methane, higher unsaturated hydrocarbons and some free carbon) 7.3 100.0 volume percent The residence time for the reaction mixture was 20 to 50 milliseconds; the residence time is the time that the mixture takes needs to pass through the combustion chamber at normal temperature and normal pressure.

It should be noted that, although for the sake of simplicity, reference is made to the Impact element-directed nozzle referred to as the fuel nozzle and the distribution devices are shown in such a way that they have the function of airing the thin liquid film and supplying oxygen, the functions of these two structural elements are also reversed can be. So the device can work successfully when air and oxygen fed through the nozzle and spread into a thin layer on which the Burning substance is applied through the distribution devices.

Claims (13)

PATENT CLAIMS: 1. Process for the production of unsaturated hydrocarbons, especially of acetylene, saturated by incomplete combustion of gaseous Hydrocarbons with oxygen or air, characterized in that one Hydrocarbon jet in a combustion chamber by striking an impact element into a thin, radially diverging hydrocarbon film that is partially burned with separately supplied oxygen or air, and that one draws and quench the hot products of combustion from the combustion chamber. 2. The method according to claim 1, characterized in that the quenching hot combustion products by adiabatic expansion in a gas turbine. 3. The method according to claim 1 and 2, characterized in that one the residence time of the reactants in the combustion chamber to 20 to 50 Milliseconds. 4. The method according to claim 1 to 3, characterized in that one the hydrocarbon and / or the oxygen or the air before introduction into preheats the combustion chamber. 5. Apparatus for performing the method according to claim 1 to 4, characterized by a cylindrical combustion chamber, which is short in the axial direction, a nozzle for injecting hydrocarbons, a baffle element that holds the fuel pulls apart into a thin film, facilities for supply and distribution of oxygen or air via the fuel film and devices for removal the products of combustion from the combustion chamber. 6. Apparatus according to claim 5, characterized in that the surface of the impact element is relatively small compared to the cross-sectional area of the Combustion chamber. 7. Apparatus according to claim 5 and 6, characterized in that a turbine for quenching is located immediately downstream of the outlet of the combustion chamber the hot combustion products. 8. Apparatus according to claim 5 to 7, characterized in that the facilities for the supply and distribution of oxygen or air from several are arranged around the nozzle inlet channels with an outside of the Combustion chamber arranged manifold are in communication. 9. Apparatus according to claim 8, characterized in that the inlet channels are inclined slightly inwards towards the nozzle. 10. Apparatus according to claim 5 to 7, characterized in that the supply and distribution devices form a gap surrounding the nozzle in an annular manner represent. 11. Apparatus according to claim 5 to 10, characterized in that the devices for discharging the combustion products from an outlet opening in the form of several radial outlet holes or an annular outlet channel exist, surrounding the baffle and the combustion chamber with a manifold for which connects the products of combustion. 12. The apparatus according to claim 11, characterized in that the Manifold has an annular cross section, the ring diameter while maintaining the ring width from the outlet opening of the combustion chamber reduced to a perforated outlet nozzle. 13. The apparatus according to claim 12, characterized in that the Manifold for the combustion products from a between a conical body and a conical extension of the combustion chamber formed space consists.