SU785287A1 - Method of acetylene production - Google Patents

Description

(54) METHOD FOR OBTAINING ACETYLENE

Claims (2)

The invention relates to the field of petrochemistry, namely to a method for producing acetylene from a petroleum feedstock. A known method for producing acetylene from ethylene by the arc method is by introducing methane into the gap between the electrodes l. Closer to the essentially proposed and achieved result is the method of obtaining acetylene by thermochemical decomposition of crude oil in plasma at temperatures up to 1600-1800 K and pressure below 0.65 atm G2. A disadvantage of the known methods for the production of acetylene by plasma-chemical methods is that a high temperature (of the order of 40005000 K) is necessary for carrying out the process, which allows to heat the coolant, in this case hydrogen or argon, to. Obtaining such temperatures in a time of 5–10 –2 – UTs requires a significant power consumption of 4–5 kW – h per 1 kg of acetylene or ethylene). In addition, in order to avoid a reverse reaction, the target product at the end of the reaction zone is cooled to 200 ° C by injecting oil. Plasmochemical transformations of hydrocarbons in a plasma jet in the presence of a heat carrier are usually accompanied by electric and magnetic fields. For carrying out P1 of the process, complex and expensive equipment is necessary, the heat of pyrogas and water vapor is transferred to the quenching water and is practically not utilized. The aim of the invention is to increase the efficiency of the process, namely, the use of heat of a cheap type of energy, without the expenditure of energy in general, the elimination of the need to use a hydrogen or argon coolant and the corresponding systems in the production of acetylene, since the role of the coolant serves as a solar power plant. installed in the solar plane of the solar panel. Heating of the flow of the reacting gas is carried out by convection as it passes through the pores of the head. The use of concentrated solar energy makes it possible to achieve operating temperatures without limitation imposed by the properties of the application of structural materials, as well as the absence of electric and magnetic fields. This goal is achieved by the fact that the thermochemical decomposition of petroleum feedstock at 1600-1800k is carried out when using the sun's radiant energy as a heat source. The process is desirable to lead At a pressure of 0.3-0.5 atm. An example. Raw materials of the following composition,%: Methane 61.8 Ethane-ethylene 23.2 Hydrogen2.8 Isobutane3.3 N-butane3.5 Isopentane3.1 Other2.7 enters the reaction chamber, installed in the focal region of the solar furnace. Under the action of a temperature of 1600–1800 K and a pressure of 0.3–0.5 atm, the mixture undergoes thermochemical decomposition to acetylene, to stop further transformations, the reaction products are cooled with running water. The table shows the results of acetylene yield depending on pressure and temperatures. 0.1 1.2 10.0 13.0 16.0 0.2 1.3 11.5 14.5 16.0 0.3 .1.3 12.0 15.0 16.0 Continued table. 0.4 1.2 11.0 14.0 16.0 0.5 1.2 10.5 13.0 1b, 0 Production of acetylene from waste oil products provides, in comparison with existing methods, the possibility of obtaining acetylene using simplified technology using cheap solar energy Claim 1. Spfsob obtaining acetylene thermochemical decomposition of crude oil at a temperature. 1600-1800K, characterized in that, in order to increase the efficiency of the process, thermochemical decomposition is carried out when used as a source of heat of the sun's radiant energy. 2. Method POP1, characterized in that the process is carried out under a pressure of 0.3-0.5 atm. Sources of information taken into account in the examination 1. US patent 3791949, cl.204-71, published. 1974. 2. US patent No. 3168592, cl. 260-679, published. 1965 (prototype).