SU1546131A1 - Gas-liquid reactor - Google Patents

Abstract

The invention relates to the design of apparatus for carrying out gas-liquid processes and can be used in processes with a high rate of circulation of ascending and descending gas-liquid flows, for example, in wastewater treatment processes, neutralizing waste gases, especially toxic, carrying out various chemical reactions between gases and liquid by increasing the safety of the operation of the reactor, increasing the completeness of use of the exhaust gas, increasing the intensity of circulation of the gas-liquid mixture, and consists in that in a gas-liquid reactor consisting of a body with a spout pipe installed inside, a gas distribution device, gas and liquid phase inlets and outlets, the gas distribution device is made of an ejector installed in the bottom of the reactor, the receiving nozzle of which is connected to the gas phase outlet from the reactor, and The output diffuser of the ejector is made perforated and installed under the bubbling tube, coaxially with it. In addition, a swirler is installed between the bubbling tube and the ejector diffuser, and the ejector is fixed in the bottom of the reactor with the possibility of vertical movement. The bubbling reactor tube is made of telescopically sliding tubes. 3 hp f-ly, 1 ill.

Description

The invention relates to the design of apparatus for carrying out processes in liquid media and can be used in branches of the national economy, where intensive contact between the liquid and gas phases is required.

The aim of the invention is to increase the safety of the operation of the reactor and the increase in the completeness of use of the exhaust gas and the intensity of circulation of the gas-liquid mixture.

The drawing shows a gas-liquid reactor, a General view.

The gas-liquid reactor contains a housing 1 inside which a bubble tube 2 is installed, consisting of telescopically sliding tubes 3 and 4. The bubble tube can be made hollow and can be used additionally as a heat exchanger. An ejector 5 is installed in the bottom of the reactor, the receiving choke 6 of which

connected to the nozzle 7 of the gas phase out of the reactor, and the nozzle 8 of the ejector - with the feed pump 9.

The output diffuser 10 of the ejector is perforated and installed under a bubbling tube. An evacuator 11 is installed between the bubble trap and the ejector diffuser. The ejector 5 is fixed in the bottom of the reactor by a mixing chamber 12 with the possibility of vertical movement. Adjusting the length of the bubbling tube is possible with the help of rods 13 and 14. The input and output of the liquid phase are carried out through fittings 15 and 16. Gas is fed into the line through valve 17.

Gas-liquid reactor operates as follows.

Through the nozzle 15, the filling of the reactor with the liquid phase is started. The pump 9 is turned on, which supplies the working medium to the nozzle 8 of the ejector (depending on the process, it may be steam that will condense after exiting the ejector, or liquid reagent directly involved in the process). At the initial moment of time, gas is supplied to the feed through valve 17 to the receiving nipple 6 of the ejector and disperse it into the reactor volume, the gas entering into the liquid phase in a chemical reaction, and its remainder from the upper part of the reactor spontaneously without using external pumps reactor, which ensures high utilization of the working gas during its multiple circulation through the apparatus, and

also security due to

creating a vacuum in the reactor and the absence of external pumps for pumping gases, especially aggressive and toxic. Swirler 11 contributes to the crushing and spinning of the gas-liquid mixture, which improves the conditions of the process. The circulation intensity of the gas-liquid mixture can be changed by varying the distance from the cut-off of the ejector diffuser 10 to the vortices 11 (the bubble tube 2), as well as changing the length of the bubble tube itself, which, in turn, can significantly improve the heat transfer in the reactor supply of coolant into the hollow walls of the bubbling tube. If necessary, the process is fed with fresh gas in the pipe ratio through valve 17. It is possible

,,

Jq jr

0 40

50 55 30

45

There is also a liquid phase loop from fitting 16 to pump 9, which ensures that not only the gaseous, but also the liquid phase is fully utilized.

The use of the proposed reactor makes it possible to intensify the process of circulation of the gas-liquid mixture in the reactor and to create better conditions for the contact of the gas and liquid phases by crushing them and increasing the contact time, which increases the utilization of the passing gas.

Claims (4)

1. A gas-liquid reactor comprising a housing with a spout tube installed inside, a gas distribution device, gas and liquid phase inlets and outlets, characterized in that, in order to increase the safety of the reactor operation and increase the utilization efficiency of the exhaust gas and the circulation rate of the gas-gas mixture, the gas distribution device is made in the form of an ejector installed in the bottom of the reactor, the inlet fitting of which is connected to the outlet of the gas phase from the reactor, and the outlet diffuser of the ejector made perforated and installed under the bubbling tube coaxially with it. 2. Reactor according to claim 1, characterized in that a swirl is installed between the bubbling tube and the ejector diffuser. 51546131 3. Reactor on PP. 1 and 2, about t of l and 4. Reactor on PP. 1 and 2, characterized in that the bubbling of the pipe is made of a telescopic one in that the ejector is fixed in the bottom of the reactor with the possible vertical displacement. ki sliding pipes. -Yo and