SU1558487A1 - Method of controlling flotation of datolite ore - Google Patents

Abstract

The invention relates to the control of technological processes and can be used in the mining industry for the automated management of flotation processes of the processing plants. The purpose of the invention is to increase the speed of control. For this, the moisture content of the froth flotation product is measured. Adjust the consumption of reagents supplied continuously to the cell of the flotation machine in proportion to the measured value. The moisture content of the froth flotation product is an indirect parameter characterizing the content of the useful component, the measurement of which can be implemented promptly. 2 ill., 2 tab.

Description

The invention relates to the control of technological processes and can be used in the mining and chemical industry with automated management of flotation processes of processing plants.

The aim of the invention is to increase the speed of control.

FIG. 1 shows a block diagram of an apparatus for implementing the method; in fig. 2 is a graph of the relationship between moisture content and the concentration of VdOz in the concentrate.

The method consists in measuring the moisture content of the froth flotation product and adjusting the consumption of reagents in proportion to the measured value.

The block diagram (Fig. 1) contains the camera of the photomachine 1, the sensor 2 of the moisture analyzer is installed above the camera, the signal from the sensor enters the computing device 3, which forms the controlling effect on the reagent feeder 4.

A method for controlling the flotation process is as follows.

The initial pulp and reagents are continuously fed into the cell of the flotation machine 1. As a sensor 2, a photometric moisture analyzer “Shore, which is installed above the camera of the photomachine and“ is scanned onto a foamy product, is selected. The need for sampling is eliminated. The sensor 2 continuously measures the amount of moisture content and transmits a signal to the computing device 3, which generates a corrective effect on the change in flow rate through the reagent feeder 4. The time taken to control the process is 0.85-1.0 minutes. In order to obtain the relationship between the content and the moisture content of the foam, a factor experiment was performed on a laboratory flotation machine, which resulted in the regression equation obtained

Y 13.314+ 2.370X, + 0.259Xz + 0.095X-, X ,,

where Y is the moisture content of foam,%; X | - content of В2Оз,%; X2 is the amount of reagents,%.

ate

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It follows from the obtained equation that the determining effect on the amount of moisture content is exerted by the content of В2Оз in the concentrate. In laboratory conditions, 87 experiments were performed to clarify the relationship between the moisture content and the B2O3 content in the froth flotation product.

The results of one series of experiments are given in table. 1 and in FIG. 2, of which a linear relationship is visible between these values, the correlation coefficient characterizing this relationship is 0.94.

In tab. 2 shows the results of measuring the time during which the flotation process of the datolith ore is controlled by the known and proposed methods in experimental tests.

From tab. 2 it follows that the application of the proposed process control method

The flotation of datolite ore by introducing a new parameter — the moisture content of the foam — makes it possible to automate the flotation control process, which increases the control efficiency by 56-60 times compared with the known method.

Claims (1)

Invention Formula The method of controlling the flotation process of datolite ore, based on the change in reagent consumption depending on the content of the useful component in the initial feed and concentrate, is characterized in that, in order to increase the control efficiency, the moisture content of the froth flotation product is corrected and the reagent consumption is proportional to the measured value . Table 1 table 2 15 25 ten Pulp Recents 53 Auto 0.9 0.9 tically XЈocm6t Lena 1 Vlogosodekknie, ° / 0 V A o90 .. 80. 70-60- JO BO thirty / 4 75 76/7 78 t9 2O 2f 22 S3 FIG. 2 4bV / X