SU613799A1 - Reactor for conducting heterogeneous processes - Google Patents

Claims (2)

(54) REACTOR FOR CARRYING OUT OF HETEROGENOUS PROCESSES At this point, the shock waves are amplified and a detonation wave arises. The length of the combustion chamber is chosen such that the predetonation yiacTOK ends before the 7th discharge line. The pressure at the moment of detonation is increased by a GO-TOO times. A detonation warrior, high in the combustion chamber and having a propagation velocity of 5.10 m / s, transits into a booster chamber 8 into a strong shock wave, which causes powerful shock waves. Waves guided by the socket into the reaction zone of the apparatus. The prevention of the entry of combustion products into the reactor is effected by a booster chamber 8 and an interim discharge line. After the occurrence of a deahenacon energy pulse, the products of combustion exit through the intermediate discharge line, and their part, which fell into the booster chamber 8, is displaced by the booster gas also into this mainstream. The feed nozzle of the booster gas is located behind the zone of penetration of the combustion products. Replacing the combustion products from the booster chamber also contributes to the fact that after the detonation wave emerged and the exit of the combustion products: to the intermediate release vent, the pressure in the combustion chamber drops. The booster gas is gas that is inert to the combustion process and to the processes in the chemical reactor. Selecting the length of the inner tube of the chamber prior to the start of operation and adjusting its length during operation, the most intense acoustic effects on the reaction process in the inter-agitating medium are followed. The drive shifts or pushes the telescopically connected charts of the booster section, thereby changing the harmonic of the acoustic output pulse. If necessary, the process can be automated by installing a telescopic drive, for example, through feedback, by a sensor of an extreme reaction mode. After the expiration of the products of combustion through the main line of intermediate discharge, the combustion chamber is again filled with fuel and oxidizer. The interruption of the flow of nausea and oxidant occurs aa to1 h, that after the transition of the deflagration to detonation, the occurrence of an energy impulse, the detonation wave propagates to the closed end of the combustion chamber and increases pressure in it. This pavlen exceeds the pressure in the fuel and oxidizer manifolds, thereby stopping their access to the chamber. Combustion products are partially located in the south of the fuel and oxidizer collectors, where they are intensively cooled with special highly accelerated radiators to a temperature below the temperature of the combustible mixture. After the expiration of the products of combustion and pressure drop in the chamber, the flow of fuel and oxidant is forced out; Asphalted products into the chamber, where they form a stopper, preventing a new batch of combustible mixture from igniting. The proposed reactor due to the powerful shock acoustic of the Glie action with high energy density in a pulse and the adjustment of the harmonics makes it possible to use the carrying out of the reaction processes with intensification highly efficiently. Claim 1. Reactor for carrying out heterogeneous processes, containing a detonation combustion chamber with an ignition device and collectors for fuel and oxidant supply and a diffuser, characterized in that the reactor is equipped with a booster chamber in order to intensify heterogeneous processes due to increased acoustic effect. installed between the combustion chamber and the diffuser, and the combustion chamber is equipped with a gas outlet. 2. Reactor, characterized in that the booster chamber is equipped with an inert fluid supply nozzle, mounted on 1X1M outlet. Sources of information taken into account in the examination: 1. Magazine Poroshkova metallurgists, No. 1, 1968, Academy of Sciences of the Ukrainian SSR, p. 37, Shestereikov. Detonation coating.   I / NV I J / t S 6 I I I S9 .N / j f.