SU508593A1 - Apparatus for producing a pulsed stream of hot gas in boiling unit installations - Google Patents

Description

The invention relates to the chemical industry and can be applied to the treatment of granular materials in a fluidized bed during endothermic processes.

A device for producing a pulsed stream of hot gas in fluidized bed installations is known, which includes a pulsator and pipelines of hot and cold gases, the pulsator being installed in a line (in stream) of hot gas. However, in such a device, a gas flow can be carried out at low temperatures (on the order of 100 ° C) and cannot be carried out at high temperatures, for example, 700-1000 ° C, since when the pulsator is installed on a hot gas line at such temperatures the place of scale formation, deformation of parts of the pulsator and its rapid release.

The proposed device makes it possible to interrupt the gas flow at high temperatures (700-1000 ° C) due to the formation of a periodic airlock.

This is achieved by the fact that the pulsator is installed on the cold gas pipeline and is connected to a nozzle, the outlet of which is directed against the flow of hot gas.

The drawing shows a diagram of the described device.

It includes pulsator 1, pipelines 2 and 3 of cold and hot gases. The pulsator 1 is installed on the cold gas pipeline 2 and is connected to the nozzle 4, the outlet of which is directed opposite to the flow of hot gas.

The device works as follows. The flow of hot gas passing through conduit 3 enters the apparatus 5 of the installation of the fluidized bed and causes the granular material contained in it to be suspended. Hot gas is at the same time a source of heat required for conducting an eidothermic reaction in apparatus 5. Interrupting the flow of hot gas is carried out

nozzle 4. Cold air passes through nozzle 4, to which oscillations of a certain frequency and duration are communicated using a pulsator 1. Cold air communicates oscillations of a given frequency and porosity to a hot gas flow, and it, in turn, transfers these oscillations Smartphone in the device 5.

Thus, the flow of cold gas generates the frequency and duration of the impulse of hot gas with the help of the pulsator 1 installed on the cold gas pipeline.

The operation of Sonnel 4 is based on the conversion of the velocity head of a cold gas into a static pressure opposing the main flow of hot gas, for which the pressure in the cold gas pipeline must

be higher than the pressure in the hot gas pipeline.

Claims (1)

Invention Formula Apparatus for producing a pulsed stream of hot gas in fluidized bed installations including a pulsator and piping hot and cold gases, characterized in that, in order to form a periodic airlock for interrupting the gas flow at high temperatures, the pulsator is mounted on the cold gas pipeline and connected to a nozzle, the outlet of which is directed opposite to the flow of hot gas.