SU1227700A1 - Method of sintering agglomeration charge - Google Patents

Description

The invention relates to metallurgical production, in particular, to methods for intensifying the sintering process of the sinter blend.

The purpose of the invention is to increase production and reduce gas consumption.

The method is implemented as follows.

Above the sintering belt beyond the mountain one across the width of the belt, a row of ultrasonic vibrators is installed in such a way that they act on the layer of agglomerate across its entire width. For the operation of vibrators along the machine, the compressed air distribution is made. Vibrators create oscillations of the upper plastic layer of the agglomerate in the frequency range up to 500 Hz (the frequency is established experimentally depending on the porosity of the sintered layer, an indirect indicator of the porosity of the agglomerate is the carbon content in the charge). Due to the vibrations of the hot layer of the agglomerate while simultaneously cooling it with air, the upper sintered layer of the agglomerate cracks to a raw charge. At some experimentally established distance from the first row, a second row of vibrators is set across the width of the sintering belt, which also oscillates in the frequency range up to the threshold of sluggishness (the frequency is also established experimentally). These vibrators widen the cracks and deepen them into the sintered layer. agglomerate raw

The drawing shows the calculated dependence of the optimal frequency of the vibrator on the carbon content in the charge.

The range of carbon change in the charge in the range of 3.6-4.3% corresponds to the range of optimal frequencies of the vibrators 500-100 Hz,

Examples of the method of sintering the agglomerate were carried out on a fixed bed installation. Composition of the charge, kg / t: Olenegorsky concentrate510 Kovdorsky concentrate315 Mikhaylovsk agricultural field 97 Kostomuksha concentrate23

50 4.0 3.5 2.0

1.5 152 63.3

Taking into account the ash content and moisture content of coke, the percentage of carbon in the charge is 3.8%, this carbon content corresponds to the optimal frequency of the vibrator 200 Hz.

Sintering mode: bed height of 220 mm, moisture content of the mixture 6%, raw batch temperature 50 s,

The charge was ignited by a natural gas burner for 1 minute. The sintering process was carried out under the pressure created by the fan. The end of sintering was determined by passing a maximum temperature in the lower layer of the agglomerate (on the grate),

Used as a vibrator

dynamic radial siren with a 10 kW electric drive, acoustic frequency 200 Hz, compressed air pressure 5 atm, compressed air speed

300 m / s, the pressure exerted on the upper layer of the algomer is 13 Pa,

The test results are presented in the table.

The use of vibrotool destruction of the sintered agglomerate layer increases the vertical sintering rate by 7.8%. When operating at the minimum, according to the process instruction, carbon content in the charge (3.6), the same effect is obtained by increasing the frequency of the vibrators to 500 Hz. carbon to the maximum (4.3%) the frequency of the vibrator should be reduced to 100 Hz.

The proposed method, in comparison with the prototype, provides for an increase in the gas permeability of the agglomerate in the sintering process, i.e., an increase in the vertical sintering rate of the agglomerate. This, in turn, allows increasing the sintering speed or increasing the bed height and thereby increasing the productivity of the sintering machine, as well as reducing gas consumption per tonne of sinter by improving the sintering conditions, i.e., improving the economic performance of the sintering machine.

1227700. 4

Without vibrator I S.vibrator

10,29,4

950920

,

500500

350200

21,523,2

Claims (1)

ι 54) METHOD OF SINTERING OF Agglomeration Batch, including loading the charge onto an sintering machine, igniting it and forming voids in the sintered layer, characterized in that, in order to increase productivity and reduce gas consumption, the sintered layer of sinter is affected by acoustic vibrations in the frequency range 100-500 Hz