SU386655A1 - WAY OF OBTAINING A PULSE MODE "JAW - Google Patents

Description

I

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

A known method for producing a pulsed fluidization mode is by varying the frequency and duty cycle.

To obtain and adjust the piston mode, the process is conducted in the frequency range of 0.9-2.6 Hz and a duty cycle of 0.7-1.0.

The essence of the proposed method of obtaining a pulsed mode of a piston fluidization is that pulsed fluidization is used with a change in certain frequency and duty ratio (ratio of time during the interruption of the flow, during which the fluidizing flow does not pass into the apparatus with granular material and flows into it) flow. This makes it possible to obtain piston fluidization regimes even in those apparatuses in which it was not possible to obtain them under normal conditions of fluidization. In this case, it becomes possible to control (regulate) the intensity of formation and rotation over the height of the piston layer, affect the dimensions of the pistons and the ability to determine the conditions under which the heat transfer coefficient in the layer can be increased or optimal modes of the nornish fluidization can be obtained to manage one or another chemical process. The peculiarity and positive quality of the pulsed fluidization regime obtained in this way is also the reduction of emissions from the bed and the reduction of pulverization.

Example. On a special stand for hydrodynamic and thermophysical studies of layers of granular materials in a conical-cylindrical apparatus, a pulsed fluidized bed of a pyrite calcine is created by superimposing oscillations on the fluidizing gas flow. Using a solenoid valve and a special electrical circuit that controls the operation of a solenoid valve, change the frequency of flow shut-off from 0 to 12 Hz, and the duty cycle from 0 to 10. A variety of stable pulsed piston fluidization modes are obtained at frequencies of fluidizing flow interruption in the range of 0, 9-2.5 Hz and a change in the duty ratio of interrupting a fluidizing stream in the range of 0.7-1.0.

In all of the indicated ranges of frequency change and flow interruption, ease of control and regulation of piston fluidization regimes, as well as reduction of emissions from the bed and reduction of dust removal compared to conventional piston fluidization, are achieved. 34

The subject of the invention is the flow ratio, characterized in that

The method of obtaining the pulse mode go, the process is carried out in the frequency range of fluidization by changing the frequency and 0.9-2.6 Hz and a duty cycle of 0.7-1.0.

386655

the purpose of obtaining and adjusting the piston